Bioadhesive precursor protein expression vectors

ABSTRACT

Vectors are provided that are capable of expressing, in microbial transformants, a protein having the native amino acid sequence of a bioadhesive precursor protein of a marine animal selected from the group consisting of mussels, barnacles, and oysters. The bioadhesive precursor protein can be expressed in transformants, recovered and converted to a bioadhesive protein by hydroxylation.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a division of application Ser. No. 07/530,449 filed May 30, 1990, now U.S. Pat. No. 5,049,504, which is a continuation of application Ser. No. 07/082,456 filed Aug. 7, 1987, now abandoned, which is a continuation-in-part of application Ser. No. 06/933,945 filed Nov. 24, 1986, now abandoned, which is a continuation-in-part of application Ser. No. 06/650,128 filed Sep. 13, 1984, now abandoned.

BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to the production of bioadhesives that can be employed to bond substances for use in wet environments Typically, the bioadhesives of the invention are employed as marine adhesives, biomedical adhesives or dental adhesives. The invention further relates to the microbial production of bioadhesive precursor proteins that can be converted to bioadhesives by chemical or enzymatic treatment.

2. Brief Description of Background Art

The properties of adhesives generally must be tailored to meet the requirements of the particular environments in which they are to be used. Ideally, an adhesive should be cured and it should maintain both its adhesivity and cohesivity under the conditions of use. Curing is the altering of the physical properties of an adhesive by chemical or enzymatic means. In the case of the bioadhesives produced by the procedures described herein, curing is likely to be due to the cross-linking of adjacent uncured adhesive molecules by catalytic and/or chemical agents. Curing may also involve adhesive cross-linking with the substrate.

Many adhesives that exhibit excellent adhesive properties under dry conditions suffer a substantial or total loss of those properties in wet environments. Furthermore, adhesives of the prior art cannot be cured in wet environments. Consequently, it has been particularly difficult to develop adhesives for use in wet environments, such as marine adhesives or adhesives for use in medical and dental applications.

Marine mussels and other sessile invertebrates have the ability to secrete adhesive substances by which they affix themselves to underwater objects. For example, mussels of the genus Mytilus, e.g., the species Mytilus edulis and Mytilus californianus, deposit an adhesive substance from the mussel foot that becomes cured, forming a permanent attachment to the substrate. A major component of the adhesive plaque deposited by M. edulis has been identified as a hydroxylated protein of about 130,000 daltons (Waite, J. H., J. Biol. Chem., 258:2911-2915 (1983)). While this substance might make an excellent adhesive for use in wet environments, isolation of the uncured adhesive from mussels for commercial use is not practical, since the extraction of 1 kg of the adhesive substance would require the use of about 5 to 10 million mussels. Besides involving a very laborious process, great care would have to be taken, in case the adhesive were to be employed in medical applications, to insure that other mussel proteins and contaminants were removed from the bioadhesive prior to use in order to prevent antigenic or anaphylactic reactions.

U.S. Pat. No. 4,585,585 describes a procedure for preparing a bioadhesive polymer by chemically linking decapeptide units produced by the enzymatic digestion of isolated mussel adhesive protein. In accordance with the disclosure of that patent, a bioadhesive protein is first isolated from phenol glands of mussels of the genus Mytilus using the protein purification procedures described by Waite and Tanzer in Science, 212:1038 (1981). The isolated bioadhesive, having a molecular weight of 120,000 to 140,000 daltons, is first treated with collagenase, which reduces its molecular weight by about 10,000 daltons. The treated protein is then digested with trypsin, and the digested protein subjected to gel filtration dialysis to isolate decapeptides of the general formula

    NH.sub.2 -Ala-Lys-Pro/Hyp-Ser/Thr-Tyr/Dopa-Pro/Hyp-Pro/Hyp-Ser/Thr-Tyr/Dopa-Lys-COOH

The decapeptides produced in this polymerized by the use of chemical linking groups such as glutaraldehyde, oligopeptides, amino acids or other bifunctional linking groups to produce bioadhesives containing up to about 1,000 such decapeptide units.

The procedure of U.S. Pat. No. 4,585,585 still requires the isolation of bioadhesive protein from mussel, which, as previously indicated, is impractical on a commercial scale. Moreover, in addition to the laborious purification procedure, this process adds the additional steps of enzymatic digestion, isolation of the decapeptide fragments and chemical reassemblage of the fragments into a bioadhesive polymer. This arduous procedure is not well-suited to commercial production. Further, the polymers produced by this method are quite different from the mussel adhesive since they contain only chemically polymerized decapeptides produced by trypsin digestion of the natural molecule. Analysis of the natural gene described herein demonstrates that there are other significant sequence elements in the mussel adhesive from Mytilus edulis.

Thus a need has continued to exist for means and methods for the efficient production of bioadhesives having the excellent properties associated with the mussel foot bioadhesive in wet environments.

A further need has continued to exist for means and methods for producing bioadhesives having the properties of the mussel foot adhesive without the necessity of handling and processing large quantities of mussels.

SUMMARY OF THE INVENTION

This invention involves application of the techniques of recombinant DNA technology to the production of bioadhesives of the type produced by marine animals such as mussels, barnacles and oysters. In particular, we have cloned genes for native bioadhesive precursor proteins (also termed polyphenolic proteins) of the mussel Mytilus edulis and constructed expression vectors capable of expressing these precursor proteins in microbial hosts. The bioadhesive precursor proteins are chemically or enzymatically hydroxylated, mimicking a process which occurs in vivo in the mussel, to produce a bioadhesive protein which cures to produce an adhesive having excellent properties in wet environments.

In the course of our work, we have isolated multiple cDNA clones coding for native M. edulis bioadhesive precursor proteins. Two of the encoded proteins (from cDNA isolates 14-1 and 52) have a common C-terminal sequence of 134 amino acids, including a hexapeptide followed by twelve decapeptides, ten of which display non-homology with the decapeptide sequence described in U.S. Pat. No. 4,585,585.

Another encoded protein, from cDNA isolate 55, has homology with 53 and 110 amino acids in the proteins encoded by cDNAs 14-1 and 52, as well as homology in a different region with 34 and 57 amino acids of the proteins encoded by cDNA isolates 56 and 52. The coding homologies are conserved at the DNA level. One likely explanation for these observations is that the M. edulis polyphenolic protein gene consists of several exons that can be spliced together in different combinations at the mRNA level. Alternatively, there could be several closely related genes.

This disclosure is not intended to be limiting to any one exon combination or bioadhesive precursor protein gene, as a method is described which allows the isolation and use of any existing gene or gene combinations. In all the unique decapeptide coding segments observed in the 4 cDNA clones described herein, 24 of 39 decapeptides display non-homology with the decapeptide described in U.S. Pat. No. 4,585,585.

Yet a further encoded protein, from cDNA isolate N1, a 2.1 kb clone, contains 76 continuous tandem repeats of decapeptides and hexapeptides. Of the 63 decapeptides in the N1 protein, 32 display non-homology with the decapeptide described in U.S. Pat. No. 4,585,585.

There is provided, in accordance with this invention, a DNA segment comprising codons for the native amino acid sequence of a bioadhesive precursor protein of a marine animal, e.g., of a mussel of the genus Mytilus, e.g., M. edulis.

In one embodiment, the bioadhesive precursor protein DNA sequence comprises the colons:

      AAG CTG TCA TCT TAC AAA CCT ATT AAG ACA ACA TAT AAT GCA AAG ACA AAT TAT C      CA CCA   GTT TAT AAA CCT AAG ATG ACT TAT CCT CCT ACA TAC AAA CCA AAG CCC      AGT TAT CCT CCA   ACA TAT AAA TCA AAG CCC ACA TAC AAA CCT AAG ATA ACA      TAC CCT CCA ACT TAT AAA GCA   AAG CCC AGT TAT CCT CCA ACA TAT AAA CCT      AAG AAA ACT TAT CCC CCC ACA TAT AAA CCT   AAA CTA ACC TAT CCT CCT ACA      TAC AAA CCA AAG CCC AGT TAT CCT CCA ACA TAT AAA TCA   AAG CCC ACA TAC      AAA CCT AAG ATA ACA TAC CCT CCA ACA TAT AAA GCA AAG CCA AGT TAT   CCT      CCT ACA TAT AAA CCT AAG AAA ACT TAT CCC CCC ACA TAT AAA CCT AAA CTA ACC      TAT   CCT CCT ACA TAT AAA CCA AAG GCC AGT TAT CCT CCA ACA TAT AAA CCA      AAA CCA AGT TAT   CCC CCT TCA TAT AAA ACT AAG AAA ACT TAT CCC CCC ACA      TAT AAA CCT AAA CTA ACC TAT   CCT CCT ACA TAT AAA CCA AAA CCA AGT TAT      CCC CCT TCA TAC AAA CCT AAG AAA ACT TAT   CCC CCC ACA TAT AAA CCT AAA      CTA ACC TAT CCT CCT ACA TAT AAA GCA AAG CCA AGT TAT   CCT CCA ACA TAT      AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT   CCT      CCA ACA TAT AAA GCA AAA CCA AGT TAT CCT TCA ACT TAT AAA GCA AAA CCA AGT      TAT   CCT CCA ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA ACT TAT      AAA GCA AAG CCA   ACT TAT CCT TCA ACG TAT AAA GCA AAG CCA ACT TAT CCT      CCA ACT TAT AAA GCA AAA CCA   AGT TAT CCT CCA ACT TAT AAA GCA AAG CCA      ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA   AAG CCA AGT TAT CCT CCA ACT      TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA   AAG CCA AGT TAT      CCT CCA ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA   AAA      CCA AGT TAT CCT CCA ACT TAT AAA GTA AAG CCA ACA TAT AAA GCA AAA CCA ACT      TAT   CCT TCA ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA      AAA CCA AGT TAT   CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACG      TAT AAA GCA AAA CCA AGT TAT   CCT CCA ACT TAT AAA GCA AAA CCA ACT TAT      CCT TCA ACG TAT AAA GCA AAA CCA AGT TAT   CCT CCA ACT TAT AAA CCT AAA      ATA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT   CCT TCA ACT TAT      AAA GCA AAA TCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT   CCT      CCA ACT TAT AAA GCA AAG CCA ACT TAT CCT TCA ACG TAT AAA GCA AAG CCA ACT      TAT   AAA GCA AAG CCA AGT TAT CCT CCA ACG TAT AAA GCA AAG CCA AGT TAT      CCT CCA ACT TAT   AAA GCA AAA CCC AGT TAT CCT CCA ACT TAT AAA GCA AAG      CCA ACT TAT AAA GCA AAG CCA   ACT TAT AAA GCA AAG CCA ACT TAT CCT TCA      ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA   ACT TAT AAA GCA AAA CCA AGT      TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA   ACT TAT AAA GCA      AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA AAG CCA AGT TAT CCT CCA   ACG      TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT      CCA   ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA ACT TAT CCT TCA      ACG TAT AAA GCA   AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT      TAT CCT CCA ACT TAT AAA GCA   AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA      AAA CCA ACT TAT AAA GCA AAG CCA ACT TAT   CCT TCA ACG TAT AAA GCA AAA      CCA AGT TAT CCT CCA ACT CAT AAA GCA AAA CCA ACT TAT   AAA GCA AAG CCA      ACT TAT CCT TCA ACT TAT AAA GCA AAA CCA ACT TAT CCT TCA ACG GAT   GGA      GCA AAA TCA, or a fragment thereof.

which code for the amino acids sequence:

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__________________________________________________________________________

In another embodiment of the invention, vectors are provided for expression of bioadhesive precursor protein comprising:

(a) a DNA sequence comprising codons for the native amino acid sequence of a bioadhesive precursor protein of a marine animal, e.g., of a mussel, e.g., a mussel of the genus Mytilus, or fragment thereof; and

(b) a promoter and transcription initiation signal, operably linked to said DNA segment, which are capable of effecting microbial expression of the bioadhesive precursor protein.

In yet another embodiment of the invention, there are provided transformant microorganisms capable of expressing bioadhesive precursor proteins that can be chemically or enzymatically converted to a bioadhesive. The transformants are produced by transforming a host microorganism such as an E. coli or Saccharomyces cerevisiae with the aforementioned expression vector.

In another embodiment of the invention, there is provided a method of producing a bioadhesive protein. A transformant microorganism containing the expression vector for the bioadhesive precursor protein is cultured and subjected to conditions under which the precursor protein is expressed and the precursor protein is recovered. The precursor protein, as will be described in detail below, contains amino acid sequence subunits which possess tyrosine and proline residues. The precursor protein is converted into a bioadhesive protein by chemical or enzymatic hydroxylation, which converts at least a portion of the tyrosine residues to 3,4-dihydroxyphenylalanine (DOPA) residues and, optionally, at least a portion of the proline residues to hydroxyproline residues. In a preferred embodiment of the invention, the bioadhesive precursor protein is hydroxylated by enzymatic treatment, for example, with mushroom tyrosinase.

There are also provided by the invention methods of bonding surfaces which involve application of the bioadhesive protein, either as an adhesive per se or as a primer coating for an adhesive, to the surfaces being bonded.

There are also provided by the invention methods for bonding or wetting surfaces with composite materials including bioadhesive protein and other polymers and/or adhesives.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 presents the DNA sequence and translated amino acid sequence of a gene identified as cDNA clone 14-1, which codes for a bioadhesive precursor protein of M. edulis.

FIG. 2 presents the DNA sequence and translated amino acid sequence of a gene identified as cDNA clone 52, which codes for a bioadhesive precursor protein of M. edulis.

FIG. 3 presents the DNA sequence and translated amino acid sequence of a gene identified as cDNA clone 55, which codes for a bioadhesive precursor protein of M. edulis.

FIG. 4 presents the DNA sequence and translated amino acid sequence of a gene identified as cDNA clone 56, which codes for a bioadhesive precursor protein of M. edulis.

FIG. 5(a) presents the sequence of a portion of a multi-restriction site region of plasmid pGX2627. FIG. 5(b) presents a DNA sequence and translated amino acid sequence of portions of a synthetic DNA segment employed in the construction of plasmid pGX2346 from plasmid pGX2287.

FIG. 6 is a schematic representation of the construction of plasmids pGX2346, pGX2368, pGX2377, pGX2380, pGX2381 and pGX2383. Plasmid pGX2383 is an expression vector for a bioadhesive precursor protein.

FIG. 7 is the DNA sequence of plasmid pGX2627.

FIG. 8 is a restriction map of the YpGX265GAL4 shuttle vector showing the position and orientation of the major functional elements, including the GAL4 binding site, the MF-alpha 1 transcription initiation site, the PH05 signal encoding sequence, the GAPDH terminator sequence, the E. coli ampicillin-resistance marker and the LEU2 marker for plasmid selection in S. cerevisiae.

FIG. 9 presents the DNA sequence and translated amino acid sequence of a gene identified as cDNA clone N1, which codes for a bioadhesive precursor protein of M. edulis.

FIG. 10 presents the amino acid variations in decapeptides of clone N1. The variations in each position are shown, with the subscripts indicating the number of decapeptides in clone N1 in which the particular amino acid occurs at the position cited.

FIG. 11 is a restriction map of YpGX283, showing the position and orientation of the major functional elements.

FIG. 12 is a restriction map of plasmid YpGX405 yeast E. coli shuttle vector, showing the position and orientation of major functional elements.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

The preparation of an expression vector of the invention generally involved the following series of steps:

(a) Isolating mRNA from the marine animal, e.g., from the phenol gland of the foot of M. edulis;

(b) Synthesizing complementary DNA (cDNA) and inserting the cDNA into bacteriophage;

(c) Transfecting E. coli with the recombinant bacteriophage and culturing the transfected E. coli;

(d) Selecting clones containing bioadhesive precursor protein genes by hybridization of transformants with a radiolabeled probe;

(e) Insertion of a DNA segment, coding for a bioadhesive precursor protein into an expression vector as the 3' portion of a gene coding for a hybrid fusion protein. In some cases, a methionine residue is located on the amino terminal side of the amino acid sequence of the bioadhesive precursor protein. (By the term "DNA segment" is intended a portion, but less than the entirety, of the genome of the marine animal.)

The mRNA can be isolated from M. edulis by isolating the foot organ containing the phenol gland from live mussels; homogenizing the tissue in liquid nitrogen; dissolving the frozen tissue in guanidine thiocyanate as described by McCandliss, R. et al., Methods Enzymol., 79:51-57 (1981), or lysing the frozen tissue in the presence of ribonucleoside-vanadyl complexes and extracting the lysed tissue with phenol as described by Berger, S. et al., J. Biol. Chem., 255:2955-2961 (1980); and purifying poly A-containing RNA by binding on oligo-dT cellulose as described by Aviv, H. and Leder, P., Proc. Natl. Acad. Sci. USA, 69:1408-1412 (1972). Similar procedures may be used in isolating the mRNA transcript of the gene of other marine animals encoding bioadhesive protein.

The mRNA extracted, i.e., from the phenol glands, is then employed as a template to produce cDNA in the presence of reverse transcriptase, dATP, dCTP, dGTP and dTTP, according to well-known procedures. Advantageously, a radioactive marker such as [alpha-³² P]dCTP is used to monitor the synthesis. The mRNA moiety is then removed using known procedures and a second strand of cDNA is synthesized, using the first strand as a template, in the presence of E. coli DNA polymerase I (Klenow fragment), dATP, dCTP, dGTP and dTTP. As those skilled in the art are aware, the double-stranded (ds-cDNA) DNA produced in this manner contains a hairpin loop. The single-stranded loop can conveniently be removed by digestion with S1 nuclease.

The ds-cDNA produced in the manner described is then inserted into a cloning vector in order to produce a library of clones to screen for the presence of the bioadhesive precursor protein gene. We employed the bacteriophage lambda gt10 as a cloning vector; however, those skilled in the art will be aware that any of numerous other vectors could conveniently be employed to the same end. In order to insert the ds-cDNA into the EcoRI site of lambda gt10, we first added synthetic 8-base pair EcoRI linkers to both ends of the ds-cDNA after blunting the ends of the ds-cDNA in the presence of DNA polymerase I (Klenow fragment) and dATP, dCTP, dGTP, and dTTP. To prevent cleavage of the ds-cDNA by EcoRI it was first methylated with EcoRI methylase. The linkers were phosphorylated in polynucleotide kinase buffer and ligated to the ends of the blunted ds-cDNA in the presence of T4 ligase. Multiple linkers were then removed from the ends by digestion with EcoRI. The ds-cDNA with EcoRI linkers was inserted into EcoRI-cut lambda gt10.

The cloning vector containing the cDNA is propagated in a suitable host. In the case of the recombinant lambda gt10, we packaged the recombinant phage DNA into bacteriophage lambda heads for introduction into E. coli strain BNN102 (Huynh, T. V. et al., Constructing and screening cDNA libraries in lambda gt10 and lambda gt11, In:D. M. Glover (ed.) DNA cloning, Vol. I, IRL Press, Oxford (1985), pp. 49-78) by procedures described by Enquist and Sternberg, Methods Enzymol., 68:281-298 (1979). On this host strain, only lambda gt10 bacteriophage-carrying inserts at the EcoRI site will form plaques. The transfected hosts are cultured under appropriate conditions and examined for plaques.

The ds-cDNA library produced in the above manner is screened for the presence of the bioadhesive precursor protein gene by hybridization with a radiolabeled synthetic oligonucleotide probe. One predominant decapeptide in the bioadhesive precursor protein is known to be ala-lys-pro-ser-tyr-pro-pro-thr-tyr-lys. To screen the recombinant phage library for the precursor protein gene, we constructed and radiolabeled two 30-base synthetic oligonucleotide probes coding for the decapeptide, these two selected randomly from the 98,304 possible coding combinations. The two sequences selected were

    GCG AAA CCA AGT TAC CCA CCG ACC TAC AAA

and

    GCG AAA CCT TCT TAT CCG CCT ACC TAT AAG.

Using hybridization washing conditions with decreased stringency that were previously established in Southern blot experiments and which are described in detail in the examples which follow, the radiolabeled probes were used to screen plaques which had been fixed on duplicate nitrocellulose filter replicates. To our knowledge, the 30-base probes are the shortest synthetic probes that have been used successfully in this type of screening. Plaques that gave positive signals by autoradiography of duplicate filters were purified, screened again and grown as plate lysates for DNA preparation as described in Maniatis, T. et al., "Molecular Cloning: A Laboratory Manual," Cold Spring Harbor Laboratory, pp. 371-372 (1982). The DNA sequence of the isolated clones can be determined by well-known methods.

Using the procedures described generally above and described in greater detail in the examples that follow, we isolated several clones. Five have been characterized in detail and are identified herein as clones 14-1, 52, 55, 56, and N1, which contained DNA sequences coding for bioadhesive precursor proteins. FIG. 1 presents the DNA sequence and the translated amino acid sequence of the insert in clone 14-1. The DNA segment comprising the insert in clone 14-1 contains codons for a 203-amino acid sequence. In FIG. 1, the sequence has been divided to show 20 subunits, including 19 decapeptides and 1 hexapeptide (subunit no. 8).

FIG. 2 presents the DNA sequence and the translated amino acid sequence from the insert in cDNA clone 52. This DNA segment in the insert in cDNA clone 52 contains codons for a 334-amino acid sequence. In FIG. 2, the sequence has been divided to show 26 subunits which include 23 decapeptides and 3 hexapeptides, and an amino-terminal proline-rich segment. This cDNA clone and two of the other analyzed clones (55, 56) contain some noncoding DNA sequence (not shown) which we believe is derived from intron sequences. This suggests that some of the clones were derived from incompletely processed nuclear RNA.

The DNA sequences of the cDNA clones 14-1 and 52 display extensive homology at their 3'-ends. In particular, the last 138 codons of the translated regions are identical and include codons for a hexapeptide followed by 12 decapeptides (beginning at codon 75 of clone 14-1 in FIG. 1 and codon 205 of clone 52 in FIG. 2). Clone 52 contains a segment at the 5'-end that codes for a proline-rich segment of 82 amino acids. There is also a direct repeat of DNA sequences in clone 52. Specifically, the DNA for codons 92-147 is exactly repeated in codons 148-203.

DNA sequences for cDNA clones 55 and 56 are shown in FIGS. 3 and 4. Codons 19-129 of cDNA clone 55 match the codons 148-259 of cDNA clone 52 with one exception. Codon 65 of clone 55 is an alanine while the clone 52 corresponding codon 195 is isoleucine.

There is also homology between the cDNA of clone 55 (FIG. 3) and the cDNA of clone 56 (FIG. 4). The codons 1-33 of clone 55 match codons 54-86 of clone 56. Some of the sequences are in the area where clone 55 also overlaps with clone 52, and in the direct repeating segment of clone 52.

The DNA sequence for clone N1 is shown in FIG. 9. Clone N1 does not have a perfect overlap with any of clones 14-1, 52, 55 or 56. Clone N1 also does not have a characteristic 5'-end sequence and therefore does not, in all likelihood, include the N-terminus of the natural gene. It does, however, code for a polypeptide with a molecular weight of about 80,000, a substantial portion of the natural polypeptide (molecule weight of 110,000-130,000).

Thus it can be seen that the cDNA clones are related in a complex way. Although there are areas in common, there is also generally divergence, suggesting either the existence of multiple genes or varied patterns of mRNA splicing for one gene or both.

As previously indicated, this invention provides expression vectors for microbial expression of bioadhesive precursor proteins. The expression vectors contain a DNA segment coding for a bioadhesive precursor protein such as that of a mussel of the genus Mytilus or a fragment thereof, the DNA segment being operably linked to a promoter and transcription initiation signals that are capable of effecting microbial expression. In one embodiment, the DNA segment contains codons for at least the portion of the amino acid sequence comprising subunits 8-20 of clone 14-1 and subunits 14-21 of clone 52; that is, amino acids 72-197 of clone 14-1 and amino acids 201-326 of clone 52.

FIGS. 6 and 7 outline one procedure that is employed to produce expression vectors of the invention. These expression vectors are capable of effecting expression of a bioadhesive precursor protein as a hybrid fusion protein which, in some cases, contains a methionine residue just upstream of the protein of interest. Since the bioadhesive precursor proteins encoded by all of the clones described above except clone N1 contain no methionine residues, they can be conveniently separated from the fused sequences by treatment with cyanogen bromide, which cleaves the fusion protein at methionine residues. As regards the protein encoded by the N1 clone, cyanogen bromide treatment may cleave at the methionine residue found in the second decapeptide, still leaving essentially the entire polypeptide intact. As the amino-terminal non-bioadhesive precursor protein amino acids will comprise at most roughly 15%, and in many cases much less, of the total adhesive protein precursor, removal of those amino acids by cyanogen bromide cleavage will not be necessary for all applications.

Referring to FIG. 6, the DNA segment containing the coding region for the bioadhesive precursor protein of clones 14-1 and 52 was obtained from the lambda gt10 cloning vectors by EcoRI digestion and subcloned into the EcoRI site of plasmid pGX2627. The resultant plasmids were designated pGX2368 and pGX2377.

Plasmids pGX2368 and pGX2377 were subjected to oligonucleotide-directed mutagenesis (Zoller, M. J. et al., Methods Enzymol., Vol 100B, R. Woo, L. Grassa, and K. Moldave (eds.), Academic Press, New York, pp. 468-500 (1983)) to create BclI sites located at the translation terminators of each gene (see FIGS. 1 and 2). Since pGX2627 is a derivative of pGX1066 (ATCC No. 39955) that contains an M13 origin of replication, the pGX2368 and pGX2377 derivatives of pGX2627 were isolated in a single-stranded form for the oligonucleotide-directed mutagenesis experiments by infection of cultures with IR1 or M13 bacteriophage. The new plasmids containing BclI sites were designated pGX2380 and pGX2381.

The DNA segments containing the coding regions for the bioadhesive precursor proteins were then inserted into E. coli and yeast expression vectors in the proper reading frame. In an E. coli example presented below, the cDNA from phage 14-1 located in pGX2380 was cloned as a trpB gene fusion starting with an expression vector identified as pGX2287 that was designed for bovine chymosin production. Construction of this vector is described in detail in copending, commonly assigned U.S. Pat. No. 4,798,791. Plasmid pGX2287 has been deposited with the USDA Northern Regional Research Laboratory, Peoria, Ill., with accession No. NRRL-B15788. It contains the trpB bovine chymosin gene under the control of the leftward operator and rightward promoter regions of phage lambda (see copending, commonly assigned U.S. application Ser. No. 534,982) and an appropriately positioned transcription initiation signal. It also contains an ampicillin-resistance gene.

Plasmid pGX2287 was cut with ClaI, which cleaved the plasmid in trpB 24-base pairs upstream from the 5'-end of the chymosin coding sequence. A 116-base pair ClaI-SphI synthetic DNA was then ligated with linearized plasmid. The sequence of the synthetic DNA fragment which was ligated to the linearized plasmid is given in FIG. 5(b). The ligated DNA was then digested with SphI and the large fragment was isolated, resulting in the removal of a substantial portion of the chymosin coding region. The plasmid was then recircularized with T4 ligase. The resultant plasmid, identified pGX2346, contained the synthetic DNA fragment in place of the central portion of the chymosin gene.

Other specific vector constructions for the expression of the bioadhesive precursor protein will be apparent to those skilled in the art based on the description herein. As a general rule, however, it is advantageous to construct the vector by inserting the bioadhesive precursor coding region as an in-frame fusion with another gene that is under the control of an efficient promoter. Preferably, the fusion is constructed such that the encoded fusion protein contains a methionine residue just upstream, e.g., within about 10 residues, from the bioadhesive precursor protein segment. In the specific construction described herein, pGX2383, there is a methionine residue 7 amino acids upstream from the bioadhesive precursor sequence. The recovered bioadhesive precursor protein can be treated with cyanogen bromide, using conditions well-known in the art, to remove extraneous amino acid sequences. As those skilled in the art are aware, cyanogen bromide cleaves proteins at methionine residues. Since there are no internal methionine residues within the bioadhesive precursor protein itself, the protein remains intact.

It will be readily apparent that modifications can be made in the vector construction such that the expression vector can carry the entire coding region for the bioadhesive precursor protein or a coding region for a fragment thereof. Preferably, the fragment contains at least about 5-20% of the coding sequence of a native bioadhesive precursor protein of a marine animal, e.g., of a mussel, e.g., of a mussel of the genus Mytilus. Encoded amino acids fused to the N-terminal or C-terminal ends of the encoded bioadhesive precursor, which cannot be removed by cyanogen bromide cleavage, are not believed to interfere with the functioning of the bioadhesive protein.

The expression vector provided by the invention is used to transform any suitable host microorganism, using known means, to produce a transformant. Suitable host organisms include, for example, E. coli or other related gram-negative organisms such as Salmonella, Klebsiella, Erwinia, etc. With plasmids related to pGX2383 the host preferably contains the lambda cI857 gene coding for temperature-sensitive lambda repressor. In the case of pGX2383, we chose to employ E. coli strain GX3015 as the host. This was because pGX2383 contains the trpED portion deleted in the trpED102 chromosomal deletion in GX3015. The plasmid is therefore stabilized by growing the transformant in a tryptophan-deficient medium. Strain GX3015 was deposited on Sep. 13, 1990 at the American Type culture Collection, Rockville Md., having accession number 55093.

In a different embodiment, an expression vector may be used to transform yeast, e.g., Saccharomyces cerevisiae. Typical vectors of this type are disclosed in U.S. application Ser. No. 918,147, filed on Oct. 14, 1986, and having the title "Composite Yeast Vectors," incorporated by reference herein. One preferred vector for expression of bioadhesive precursor protein in yeast comprises the yeast shuttle vector YpGX265GAL4 (ATCC #67233). This vector is characterized by a promoter that is a hybrid-derived from the S. cerevisiae GAL1 and MF-alpha 1(alpha-factor) promoters. This promoter system permits galactose-regulated expression. The regulatory gene comprises the GAL4 gene which encodes GAL4 protein, a positive regulator of the GAL1-MF-alpha 1 hybrid promoter derived from S. cerevisiae. The terminator in the YpGX265GAL4 vector system is derived from synthetic DNA and is based on S. cerevisiae GAPDH transcription terminator. The signal encoding sequence, also derived from synthetic DNA, is based on the S. cerevisiae PH05 signal. Codons are designed substantially for usage preference in S. cerevisiae.

The YpGX265GAL4 vector contains the LEU2 gene, a marker for plasmid selection in S. cerevisiae. It also contains DNA derived from S. cerevisiae 2-micron plasmid which provides a plasmid replication origin for S. cerevisiae. The vector is further characterized by the E. coli replication origin derived from pAT153, and an E. coli selectable marker which is ampicillin resistance, also derived from pAT153. The heterologous gene (the gene coding for bioadhesive precursor protein) is inserted between the PH05 signal-encoding sequence and the GAPDH terminator.

A typical shuttle vector preparation is as follows. YpGX265GAL4 is digested with restriction endonuclease HindIII and large and small DNA fragments are gel-purified. The larger fragment is digested with restriction endonuclease SmaI, generating two DNA fragments. M13mp9 (commercially available) is digested with SmaI and HindIII and treated with calf alkaline phosphatase. The DNA fragments created by the SmaI digestion of the larger HindIII fragment of YpGX265GAL4 and from digestion of the M13mp9 are ligated and used for transformation of E. coli. The transformants containing phage double-stranded DNA with the yeast promoter-terminator cassette are identified, digested with restriction endonucleases (EcoRV and BamHI) and the large fragment (approximately 8 kilobase) is gel-purified. A plasmid containing bioadhesive precursor protein cDNA (i.e., pGX2380) is digested with restriction endonuclease XbaI, and the single-stranded overhang is filled with the Klenow fragment of DNA polymerase. The DNA molecule resulting from the XbaI and DNA polymerase treatment of pGX2380 is digested with BclI. The resulting approximately 625-bp DNA fragment is gel-purified. Oligonucleotide linker sequences are annealed and used in a three-way ligation with the DNA fragments created by restriction of the phage double-stranded DNA and the cDNA-derived DNA molecule with the modified XbaI and BclI end.

E. coli transformants containing the desired phage DNA molecules are identified by restriction endonuclease digestion. This phage DNA may be digested with restriction endonucleases (SmaI and HindIII), with the small (approximately 1,300 base pair) fragment gel-purified. YpGX265GAL4 is digested with SmaI and HindIII and the large fragment is gel-purified. The DNA molecules created by the SmaI-HindIII digestions are ligated and used to transform E. coli. The desired plasmid may be linearized with restriction endonuclease (HindIII) and treated with calf alkaline phosphatase. The 3.65-kb GAL4-containing fragment obtained from the original restriction digestion may by ligated with the linearized DNA and used to transform E. coli.

Saccharomyces strains carrying mutations in the LEU2 structural gene (e.g., AH22 (ATCC #38626)) may be transformed with this plasmid, utilizing standard methods. The yeast strain may be grown in an appropriate medium (YNBD, containing 0.7% yeast nitrogen base, 2% glucose, 20 mg/liter L-histidine) to maintain the plasmid.

While the above typifies one construction technique for yeast expression, it is readily apparent that one with ordinary skill can impart modifications and variations within the general teaching. As with the vectors described above, the expression vector may comprise the entire coding region for the bioadhesive precursor protein or coding regions for fragments thereof.

For production of the bioadhesive precursor protein, the transformed yeast strain may be grown in an appropriate medium. One suitable medium contains 1% yeast extract, 2% peptone, 1% glucose, and 1% galactose.

The transformant microorganism is cultured under conditions suitable for growth and expression of the bioadhesive precursor protein gene. After the protein has been expressed, it is recovered from the transformant by known methods such as by mechanical or chemical lysis of the cells. The protein can be purified using procedures known in the art, including well-known chromatographic procedures. The bioadhesive precursor protein is preferably purified to homogeneity or near homogeneity. In the case of a fusion protein such as that expressed by pGX2383, the recovered protein can be subjected to cyanogen bromide cleavage to remove extraneous peptide sequences.

The recovered bioadhesive precursor protein is converted to a bioadhesive by hydroxylation. In particular, it is likely to be necessary to hydroxylate at least a portion of the tyrosine or tyrosine and proline residues, an event that occurs in vivo in the mussel. Hydroxylation converts tyrosine residues to DOPA residues and, optionally, proline residues to hydroxy proline residues. The DOPA hydroxyl groups are believed to displace water at the bond surfaces, thus contributing to the excellent wet strength of the adhesive, and DOPA residues oxidized to quinones participate in intermolecular cross-linking which cures the adhesive and imparts cohesivity.

Any suitable chemical or enzymatic means for effecting hydroxylation can be employed. It is preferred using an enzyme such as mushroom tyrosinase or Streptomyces antibioticus tyrosinase. Enzymatic hydroxylation procedures using these enzymes are carried out as generally described by Ito et al., Biochem. J. 222: 407-411 (1984) and Marumo and Waite, Biochem. Biophys. Acta 872:98-103 (1986). Preferably, at least about 10% of the tyrosine residues are hydroxylated. The mushroom tyrosinase is removed from the protein using known procedures such as binding to a LH-Sephadex 60 column followed by elution with 0.2 M acetic acid or by membrane filtration. The bioadhesive protein can be lyophilized for reconstitution as an adhesive formulation at a later date.

The bioadhesive protein can be employed in the form of a solution in a suitable solvent with or without other adhesive substances. Suitable solvents for the bioadhesive include water or aqueous solutions of alcohols such as methanol, ethanol, propanol, and the like, acetone, DMSO, dimethyl formamide, and the like.

The concentration of bioadhesive protein in the solution can range from very low to very high, depending upon the intended application.

The bioadhesive protein or a solution or formulation containing the bioadhesive protein can be employed as a primer, i.e., a preadhesive film or coating to improve the total adhesive bond to a surface. It may also be employed as a component in an adhesive system to impart or improve water-resistant adhesivity. Another use within the scope of the invention includes use as a thin film membrane, or as a component in a thin film or membrane, particularly to impart desirable permeability characteristics and/or moisture resistance to such film or membrane. Yet another use is as a sealant or component of a sealant to prevent moisture penetration.

A solution of the bioadhesive protein can be uniformly coated on a surface as a primer. Curing of the primer coating occurs in a normal air environment by cross-linking, which may be indicated by the development of a brown or tan color when used in high concentration. A conventional adhesive such as an epoxy adhesive is then applied over the primer coat and the surfaces to be bonded are brought together.

In another embodiment of the invention, an adhesive composition is provided that contains the hydroxylated bioadhesive protein in solution with another adhesive substance. Typical of the adhesives that may be employed in conjunction with the bioadhesive protein of the invention are the carbohydrate adhesives and the synthetic resin adhesives such as the polyacrylates, polyepoxides, resols, etc. The known carbohydrate adhesives that can be employed include chitosan, starch, pectin, glucan, dextran, etc.

A preferred carbohydrate adhesive is chitosan purified from crab or shrimp shell chitin by the procedure of Skujins, J. J. et al., Arch. Biochem. Biophys., 111:359 (1965). The free amino groups of chitosan are reactive with the DOPA-derived quinones of oxidized bioadhesive protein, providing covalent cross-links between the two polymers. Chitosan at appropriate concentrations provides bioadhesive protein mixtures with a high viscosity and excellent adhesive strength. The high viscosity is a particularly useful property in underwater applications where diffusion can cause a loss of material before the adhesive has an opportunity to cure.

A preferred adhesive mixture comprises from 0.1% to 30% of the hyroxylated bioadhesive polymer and from 1% to 7% chitosan, the balance being solvent. The pH of the composition is from about 5.5 to 7.0. The composition can be cured at pH 6.0 by the addition of catechol oxidase or tyrosinase which catalyzes the formation of DOPA-derived quinones and cross-linking.

In another embodiment of the invention, there is provided an adhesive composition in which the bioadhesive protein is admixed with other proteins that improve its physical properties such as cohesivity. A preferred protein for this protein is collagen. A preferred composition comprises a solution having 0.1% to 70% solids, the solids in the solution comprising from 1% to 50% bioadhesive protein and from 50% to 99% collagen.

The bioadhesive protein of the invention, with or without the addition of other proteins, is particularly useful as a biomedical adhesive or sealant in a variety of medical applications, for example, in wound healing. Being a biological material, the bioadhesive protein presents a greatly reduced risk of toxic degradation products as compared with a synthetic adhesive. The bioadhesive protein can be applied as a biomedical sealant in much the same manner as fibrin (see e.g., Redl, A. and Schlag, G., Facial Plastic Surgery, 24:315-321 (1985)).

The following examples are intended to illustrate further the practice of the invention and are not intented to limit its scope in any way.

EXAMPLE 1 Production of Antibody to Bioadhesive Precursor Protein

Synthetic decapeptide (1.5 mg) with the predominant sequence of M. edulis bioadhesive precursor protein (ala-lys-pro-ser-tyr-pro-pro-thr-tyr-lys) prepared by the Merrifield solid state method was combined with 2.0 mg of bovine serum albumin (BSA) in 1.8 ml phosphate-buffered saline. One percent glutaraldehyde (0.2 ml) was added and the solution was incubated 30 minutes at 22° C. Sodium borohydride was added to a final concentration of 0.5 mg/ml and incubation was continued at 22° C. for one hour. The solution was then dialyzed against phosphate-buffered saline. Amino acid analysis of the resulting protein indicated 35 moles of peptide were coupled per mole of BSA.

Rabbits were given intramuscular injections with 100 ug of peptide (BSA coupled) incomplete Freund's adjuvant. Booster subcutaneous injections using incomplete Freund's adjuvant were given subsequently in two-week intervals. Antiserum with high-titer antibody reactive toward the decapeptide as well as M. edulis bioadhesive precursor protein isolated from mussels or produced in microorganisms was obtained by this method.

EXAMPLE 2 Isolation of M. edulis Bioadhesive Precursor Protein mRNA

The adductor muscles of live blue mussels (Mytilus edulis) were cut and the foot organ containing the phenol gland was amputated, quickly cut in small pieces and frozen in liquid nitrogen. The frozen tissue was shattered into small pieces by mixing in liquid nitrogen at top speed in a commercial Waring blender with a metal container. The pulverized tissue was store at -80° C. until use.

The frozen tissue was dissolved in a 4 M guanidine thiocyanate solution as the first step in the RNA isolation procedure (McCandliss, R. et al., Methods Enzymol, 79:51-59 (1981)). From 22.1 g wet weight of tissue, 28.3 mg of total RNA was obtained. Poly A-containing RNA was purified by selecting the RNA that would bind to oligo-dT cellulose (Aviv, H. and P. Leder, Proc. Natl. Acad. Sci. USA 69:1408-1412 (1972)). Two oligo-dT cellulose selections yielded 0.6% of the total RNA (approximately 170 ug) that included polyadenylated mRNA.

As an alternative to the guanidine isolation procedure, a modification of the procedure of Berger, S. et al., J. Biol. Chem., 255:2955-2961 (1980) was used. Five grams of the frozen mussel tissue above after lyophilization were suspended in 100 ml of 10 mM Tris-HCl, pH7.5, 10 mM NaCl, 1.5 mM MgCl₂, 0.2% NP-40, and 10 mM ribonucleoside-vanadyl complexes (VRC, Bethesda Research Laboratories), 100 ml of phenol were added, and the solution was mixed at top speed in a Virtis homogenizer for 2 min. The suspension was centrifuged to separate the phases and the aqueous phase was removed. The organic phase was extracted with 50 ml of 0.2M sodium acetate, pH5.5, and the aqueous phase was combined with the phase earlier recovered. The aqueous phases were extracted three times with phenol containing 0.1% 8-quinolinol. The RNA (with some genomic DNA) was precipitated with ethanol. Poly A-containing RNA was purified as above. From 5 g of tissue, approximately 150 ug of poly A RNA were isolated.

EXAMPLE 3 Synthesis and Cloning of M. edulis cDNA Stock Solutions and Materials for First Strand cDNA Synthesis

0.5 M Tris-HCl, pH 8.3

0.25 M MgCl₂

0.05 M dATP, pH 7.0

0.05 M dGTP, pH 7.0

0.05 M dCTP, pH 7.0

0.05 M dTTP, pH 7.0

[alpha-³² P]dCTP, 400 Ci/mmol, 1 mCi/ml (Amersham), stabilized aqueous solution

0.1 M dithiothreitol (DTT)

Oligo (dT)₁₂₋₁₈ 1,000 ug/ml (Collaborative Research, Waltham, Mass.)

0.1 M sodium pyrophosphate

0.2 M disodium ethylenediaminetetraacetate (EDTA), pH 8.0

RNasin, ribonuclease inhibitor 30 units/ul, (Promega Biotec)

Avian myeloblastosis virus (AMV) reverse tranAvian scriptase, approximately 10,000 units/ml (obtained from Life Sciences, Inc., St. Petersburg, Fla.)

All buffers and salt solutions were autoclaved. The other solutions were prepared with sterile glass-distilled water and were stored in sterile containers. All stock solutions were stored frozen. All enzymes were obtained commercially and used according to the manufacturer's specifications unless otherwise noted.

As a template for cDNA synthesis, mRNA prepared by the guanidine method described in Example 2 was employed. In order to follow the synthesis, a radio-active marker ([alpha-³² P]dCTP was used This allows monitoring of all steps by counting Cerenkov radiation, which does not result in any loss of sample. For each ug of mRNA, 2 uCi of [alpha-³² P]dCTP at a specific activity of 400 Ci/mmol were used. The radioactive material was added to a 2× reaction mixture consisting of 0.1 M Tris-HCl, pH 8.3, 20 mM MgCl₂, 1 mM dATP, 1 mM dCTP, 1 mM dGTP, 1 mM TTP, 20 mM DDT, and 5mM sodium pyrophosphate. This solution was kept on ice. To this solution was added mRNA (50 ug/ml, final concentration), oligo (dT)₁₂₋₁₈ (100 ug/ml), RNasin (600 units/ml), AMV reverse transcriptase (800 units/ml), and enough water to dilute the 2×mix to 1×. After 5 minutes on ice, the reaction mixture was incubated at 46° C. for 10 minutes. Following the incubation, EDTA was added to a final concentration of 25 mM. The solution was extracted one time with an equal volume of phenol:chloroform (1/1; v/v) and the aqueous phase was chromatographed on a column of Sephadex G-100 (0.7×20cm) equilibrated with 10 mM Tris-HCl, pH 8.0, 1 mM EDTA, 0.1 M NaCl. The mRNA:cDNA hybrid in the excluded volume was precipitated by addition of 0.1 volume of 3 M sodium acetate and 2 volumes of 95% ethanol (-20° C. to -80° C.). In order to remove the mRNA moiety, the pelleted hybrid was dissolved in 300 ul 0.1 M NaOH and incubated at 70° C. for 20 minutes. The solution was cooled on ice and neutralized with 30 ul of 1N HCl. The cDNA was precipitated as described above.

Stock Solutions and Materials for Second Strand cDNA Synthesis

0.5 M potassium phosphate, pH 7.4

0.25 M MgCl₂

0.1 M Dithiothreitol (DTT)

0.05 M dATP, pH 7.0

0.05 M dGTP, pH 7.0

0.05 M dCTP, pH 7.0

0.05 M dTTP, pH 7.0

E. coli DNA polymerase I (Klenow fragment), approximately 5,000 units/ml (Boehringer-Mannheim)

10× S1 nuclease buffer: 0.5 M sodium acetate, pH 4.5; 10mM ZnSO₄, 2 M NaCl, 5% glycerol.

It was not necessary to use a radioactive label in the second strand, since the first strand was labeled. A 2× reaction mixture consisting of 0.2 M potassium phosphate, pH 7.4, 20 mM MgCl₂, 2 mM DTT, 0.4 mM each of dATP, dGTP, dCTP, and dTTP was prepared and kept on ice. To this mixture was added an aqueous solution of cDNA containing the Klenow fragment of E. coli DNA polymerase I (100 units/ml, final concentration), and water was added to dilute the reaction mixture to 1X. The solution was incubated overnight at 15° C. After the incubation, EDTA was added to 25 mM, the solution was extracted once with an equal volume of phenol: chloroform (1/1; v/v), and the aqueous phase was chromatographed on a 0.7×20 cm column of Sephadex G-100 equilibrated with 10 mM Tris-HCl, pH 8.0, 1 mM EDTA, and 0.1 M NaCl. The DNA in the excluded fractions was precipitated with ethanol as described above.

At this point, the ds-cDNA was in the form of a hairpin. The single-stranded loop was removed by digestion with S1 nuclease. The ds-cDNA was dissolved in water and 0.1 volume of 10×S1 buffer was added. An appropriate amount of S1 nuclease was added and the solution was incubated 20 minutes at 37° C. The amount of enzyme added was determined empirically for each enzyme preparation, since the activity varied from one preparation to another. This was done by measuring the decrease in TCA-precipitable counts from the ds-cDNA. Generally, a decrease of 20-40% was observed. The S1-digested cDNA was extracted once with phenol: chloroform and the cDNA in the aqueous phase was precipitated with ethanol as described above.

Addition of Linkers to cDNA

For insertion of the cDNA into the EcoR1 site of lambda gt10 vector, EcoRI linkers were added to the ends of cDNA molecules. To prevent cleavage of internal EcoRI sites in the cDNA molecules with EcoRI, the cDNA was first methylated with EcoRI methylase.

Stock Solutions and Materials

5 ×EcoRI methylase buffer--0.5 M Tris-HCl, pH 8.0, 0.05 M EDTA.

8 mM S-adenosyl methionine (SAM)--solution in 0.01 M H₂ SO₄, pH 2, 10% ethanol.

1 mg/ml bovine serum albumin (BSA)--solution in water, sterile filtered.

8-base pair EcoRI linkers--10 A /ml obtained from Collaborative Research, Waitham, Mass.

10 mM ATP, pH 7.0

10 ×T4 polynucleotide kinase buffer--0.7 M Tris-HCl, pH 7.6, 0.1 M MgCl₂, 50 mM dithiothreitol.

gamma[³² P]-ATP--10 mCi/ml, 2,000 Ci/mmol, stabilized aqueous solution.

10 ×T4 ligase buffer--0.5 M Tris-HCl, pH 7.8, 0.1 M MgCl₂, 0.2 M dithiothreitol.

10 ×DNA polymerase buffer--0.5 M Tris-HCl, pH 7.2, 0.1 M MgSO₄.

2 mM dATP, dCTP, dGTP, dTTP mixture, pH 7.0.

1 mM dithiothreitol

10×EcoR1 buffer--1.0 M Tris-HCl, pH 7.5, 0.5 M NaCl, 0.05 M MgCl₂.

The cDNA fragment produced as described above was dissolved in 20 ul of 5 ×EcoRI methylase buffer, SAM was added to 80 uM, BSA was added to 0.4 mg/ml, water was added to bring the volume to 99 ul, and 1 ul of EcoRI methylase (20,000 units/ml, New England Biolabs) was added. The reaction was incubated at 37° C. for 60 minutes. The reaction was then extracted 2 times with phenol and ethanol-precipitated. The methylated cDNA was collected by centrifugation and dried.

Before addition of the linkers, the cDNA was treated with DNA polymerase I (Klenow fragment) in the presence of deoxynucleoside triphosphates to make the ends of the cDNA blunt. The cDNA was dissolved in 24 ul of 1×DNA polymerase buffer containing 80 uM each dATP, dCTP, dGTP and dTTP. Two units of DNA polymerase (Klenow fragment) were added and the reaction mixture was incubated at 23° C. for 10 minutes. EDTA was added to 20 mM and the cDNA was extracted two times with phenol, once with CHCl₃, and ethanol-precipitated. The cDNA, which was EcoRI-methylated and blunt-ended, was collected by centrifugation, washed once with cold 70% ethanol, and dried.

To prepare the linkers for addition to the cDNA, the linkers first had to be phosphorylated. 400 Picomoles of 8-base pair EcoRI linkers were phosphorylated in 1×polynucleotide kinase buffer with 20 uCi of [gamma-³² P]-ATP and 5 units of polynucleotide kinase. The reaction was incubated at 37° C. for 15 minutes. Unlabeled ATP was then added to 1 mM and the reaction was incubated at 37° C. for 30 minutes. The enzyme was inactivated by heating the reaction at 65° C. for 10 minutes. 160 picomoles of the phosphorylated linkers were then ligated to the cDNA. The blunt-ended, methylated cDNA was dissolved in 10 ul of water, 160 picomoles of linkers were added, 10 ×T4 ligase buffer was added to 1×, ATP was added to 1 mM, and 2 units of T4-DNA ligase (Boehringer-Mannheim) were added. The reaction mixture (a total of 20 ul) was incubated at 15° C. for 16 hours. The ligase was inactivated by heating the reaction of 65° C. for 10 minutes.

At this point, the cDNA had multiple linkers at the ends. Excess linkers were removed by digestion with EcoR1.

The ligation reaction was diluted with 5 ul of 10 ×EcoR1 buffer, 5 ul of 1 mg/ml BSA and 19 ul of water. Prior to addition of EcoR1, 1 ul of the mix was removed for analysis by gel electrophoresis. Ten units of EcoR1 (New England Biolabs., 10 units/ul) were added and the reaction was incubated at 37° C. for 1 hour. The reaction was extracted 1 time with phenol and run over a column of Sephadex G-100 equilibrated with 10 mM Tris-HCl, pH 8.0, l mM EDTA, and 0.1 M NaCl. The DNA in the excluded fractions was concentrated by use of a Centricon 30 microconcentration unit (Amicon) according to manufacturer's instructions. The cDNA was loaded on 5-25% sucrose gradient in 50 mM Tris-HCl, pH 8.0, 1 mM EDTA and the gradients were centrifuged at 5° C. at 38,000 r.p.m. for 17 hours in a Beckman SW41 rotor. Fractions were collected and were analyzed by counting Cerenkov radiation. Parallel gradients were run with molecular weight markers. Fractions containing cDNA of approximately 1,000-base pairs and longer were pooled and the cDNA was concentrated with a Centricon 30 microconcentration unit. The cDNA was washed four times with 1 ml of H₂ O to remove the sucrose and was dried in vacuo.

Preparation of Recombinant Bacteriophage DNA

Bacteriophage lambda gt10 DNA (Huynh, T. V. et al., Constructing and screening cDNA libraries in lambda gt10 and lambda gt11, In: D. M. Glover (ed.) DNA cloning, Vol. 1, IRL Press Oxford 1985, pp. 49-78) prepared by standard methods (Maniatis, et al , Molecular Cloning, Cold Spring Harbor, 1982) was linearized by digestion with EcoRI, phenol-extracted, and precipitated with ethanol. Fifty ng cDNA were mixed with 1 ug EcoRI-cut lambda gt10 (a molar ratio of approximately proximately 2:1) in 50 mM Tris-HCl, pH 7, 10 mM MgCl₂, 20 mM dithiothreitol, and 1 mM ATP, and 1 unit of T4DNA ligase (Boehringer-Mannheim) was added. The ligation mixture was incubated for 16 hours at 15° C. A small portion of the reaction mix was analyzed by agarose gel electrophoresis. The desired product at this point was high molecular weight, concatameric DNA, which was in the form required for efficient packaging into empty bacteriophage lambda heads.

Packaging of the Recombinant DNA into Bacteriophage Lambda Heads and Transfection into E. coli

The recombinant DNA was packaged into bacteriophage lambda heads for introduction into E. coli, by procedures described by Enquist and Sternherg, Methods Enzymol., 68:281-298 (1979). Packaging extracts are available commercially (Promega Biotec, Madison, Wis., and other sources) and were used according to the manufacturer's instructions. The ligated DNA was mixed with the packaging extracts (50 ul), incubated at 23° C. for 2 hours; the phages were diluted with 0.5 ml, 10 mM MgSO₄, 10 mM Tris-HCl, pH 7.5, 0.01% gelatin, and a few drops of chloroform were added to the mixture. The packaged phages were stored at 4° C.

As a host for titration and propagation of the phage, E. coli strain BNN102 (Huynh, T. V. et al., supra) was used. On this host strain, only lambda gt10 bacteriophages carrying inserts at the EcoRI site will form plaques. The host strain was grown overnight at 37° C. in LB-broth containing 0.2% maltose, to induce synthesis of the phage receptor in the host. The cells were collected by centrifugation and resuspended in one-half volume of 10 mM MgSO₄. Cells prepared in this manner were used for 1-2 days.

The phage were diluted serially in 10 mM MgSO₄, 10 mM Tris-HCl, pH 7.5, and 0.01% gelatin. Fifty ul of diluted phage were added to 0.2 ml of E. coli cells, and the mixture was incubated at 37° C. for 15 minutes to allow absorption of the phage. The infected cells were mixed with molten (47° C.) LB broth containing 0.7% agar and poured on the LB-agar plate. After the top agar hardened, the plates were incubated at 37° C. for 5-6 hours, at which time plaques could clearly be seen in the lawn of bacteria. A library of approximately 500,000 recombinant phages was obtained.

EXAMPLE 4 Selection of Bioadhesive Precursor Protein cDNA Clones from the M. edulis cDNA Phage Library

The lambda gt10 phage library was plated on twenty 15-cm petri dishes at a density of approximately 25,000 phage/plate. Duplicate nitrocellulose filter replicates were prepared for hybridization screening (Benton, W. D. and R. W. Davis, Science, 196:180 (1977)). Two 30-base synthetic oligonucleotides (GCG AAA CCA AGT TAC CCA CCG ACC TAC AAA and GCG AAA CCT TCT TAT CCG CCT ACC TAT AAG) were prepared with an Applied Biosystems DNA synthesizer. These sequences are two of the possible 98,304 coding sequences for the predominant decapeptide (ala-lys-pro-ser-tyr-pro-pro-thr-tyr-lys) of M. edulis bioadhesive precursor protein. The oligonucleotides were radioactively labeled to a specific activity of approximately 10⁸ cpm/ug with gamma-[³² P]-ATP (New England Nuclear) and T4 polynucleotide kinase (Boehringer-Mannheim), then used as hybridization probes. The radioactive oligonucleotides (approximately 3.0 ug) were added to 250 ml hybridization solution containing 20% formamide, 6XSSC, 5×Denhardt's solution, 50 mM phosphate buffer (pH 6.8), 100 ug/ml sonicated denatured salmon sperm DNA and 10 % dextran sulfate. The filters were hybridized for 14 hours at 30° C., then washed five times briefly with 300 ml 6XSSC at 22° C., one time with 300 ml 1XSSC at 22° C. and once at 42° C. for 30 minutes with 500 ml 1XSSC. The filters were air-dried and autoradiographed at -80° C. with Kodak XAR X-ray film for 12 hours.

These hybridization and washing conditions were previously established in hybridization to M. edulis DNA with the same probe on Southern blots (Southern, E., J. Mol. Biol., 98:503 (1976)). A 42° C. wash in 1XSSC was the highest temperature that demonstrated apparently specific hybridization to a fragment of BamHI-digested M. edulis DNA. The DNA for the Southern blot experiment was isolated from the frozen tissue described in Example 2 by the method of Blin and Stafford (Blin, N. and D. W. Stafford, Nuc. Acids Res., 3:2303-2308 (1976)).

Plaques giving signals by autoradiography on the duplicate filters were purified by picking, diluting, plating and repeating the hybridization screen described above. Isolated individual plaques giving radioactive signals were picked and grown as plate lysates for DNA preparation as described (Maniatis, T. et al., "Molecular Cloning: A Laboratory Manual," Cold Spring Harbor Laboratory, 1982, pp. 371-372).

EXAMPLE 5 DNA Sequence Analysis to Verify Clones

DNA from lambda gt10 clone 14-1 and other clones with putative bioadhesive precursor protein cDNA inserts were digested with restriction endonuclease EcoRI. The EcoRI cDNA fragment was cloned into M13 mp11 (Norrander, J. et al., Gene, 26:101-106 (1983)). The bacteriophage M13 derivatives were constructed using methods described by Messing (Messing, J., Methods Enzymol., 101:20-78 (1983)). Both orientations of the inserts were represented in independent clones. Some of the larger inserts were progressively shortened by the procedure of Dale et al. (Plasmid, 13:31-40 (1985)). The phage clones were sequenced by the dideoxy method (Biggin, M. D. et al., Proc. Natl. Acad. Sci. USA, 80:3963-3965 (1983)). The recorded DNA sequences were analyzed with VAX 780 computer assistance. The DNA sequence and translated amino acid sequence of clone 14-1 are presented in FIG. 1. Clone 14-1 encodes a polypeptide with tandem repeats of 19 decapeptides and 1 hexapeptide. Clone 52, presented in FIG. 2, encodes a polypeptide with a mix of 22 decapeptide repeats and 4 hexapeptide repeats preceded by an 82-amino acid segment that is proline rich. Proline-rich segments such as this had not been previously described in M. edulis polyphenolic protein. Clones 14-1 and 52 share considerable homology in their 3'-ends. After a short untranslated trailer sequence in both clones, there is the polyadenylation signal AATAAA located just prior to a stretch of A residues. These features are expected at the authentic 3'-terminus of mRNA.

EXAMPLE 6 Isolation of Full-Length M. edulis Bioadhesive Precursor Protein cDNA A. mRNA isolation

The partial bioadhesive precursor protein cDNAs shown in FIGS. 1-4 that were isolated and characterized as described in Examples 1-5 are used to isolate full-length bioadhesive precursor protein cDNA. This is accomplished through use of the initial clones as hybridization probes of more carefully prepared cDNA clone banks.

The mRNA used in Example 3 was prepared from mussels obtained in a grocery store that were not actively producing byssus threads and adhesive plaques. This may have resulted in low-level and poor quality adhesive protein mRNA. In order to obtain mRNA of better quality, fresh mussels were obtained directly by air freight delivery from the Blue Gold Sea Farms in Rhode Island. The mussels had no treatment after harvesting other than tumbling to clean their outer shells. The mussels were introduced into a 20-gallon aquarium tank placed in a 4° C. room with 10 gallons of synthetic sea water (Instant Ocean, Aquarium Systems, Mentor, Ohio) heated to approximately 12°-15° C. The tank water was mixed and the temperature regulated with a Precision H7B heater. Additional rapid agitation was provided by a lighting series 30 mixer (Mixing Equipment, Co., Inc., Rochester, N.Y. 14603). When individual mussels became active in attachment, they were removed and the distal end of the foot was quickly amputated and immediately frozen by dropping into liquid nitrogen. The tissue was ground into a powder by mixing in liquid nitrogen in a Waring blender, and then lyophilized. The mRNA was isolated by the procedure using ribonucleoside-vanadyl complexes as described in Example 2.

B. cDNA Synthesis and cDNA Clone Selection

The mRNA is used to synthesize cDNA as described in Example 3. However, this time when the double-stranded cDNA is fractionated on a 5-25% sucrose gradient, a much more stringent size selection is used where only cDNA of approximately 3,000 base pairs or larger is pooled for cloning.

The phage library and screening is carried out as described in Examples 3 and 4, except that the EcoRI insert fragment of clone 14-1 is isolated and made radioactive by nick translation (Rigby, P. W. J. et al., J. Molec. Biol. 113:237) with [alpha-³² P]-dCTP label. Hybridization is carried out at 42° C. in 6XSSC, 50% formamide, with 5× Denhardt's solution and 100 ug/ml denatured salmon sperm DNA. The filters are at 50° C. with 0.1 ×SSC with 0.1% SDS. Hybridization-positive plaques identified in duplicate are purified and DNA is prepared as described in Example 4. Clones with the largest insert size are selected for DNA sequence anlysis. Clones found with a characteristic 5'-terminal sequence and an open reading frame that codes for a protein of approximately 120,000 M.W. are full-length bioadhesive precursor protein cDNA clones.

EXAMPLE 7 Construction of Expression Vector pGX2383 for Microbial Production of M. edulis Bioadhesive Precursor Protein

The steps outlined below and illustrated schematically in FIG. 6 yielded a plasmid that expresses M. edulis bioadhesive precursorprotein as a hybrid fusion protein. The presence of a methionine residue immediately on the amino-terminal side of the adhesive protein allows isolation of basically pure bioadhesive precursor protein sequence after cyanogen bromide cleavage (Gross, E., Methods Enzymol., 11:238 (1967)). Plasmid pGX2287 (NRRL-B15788), part of a highly optimized vector/host system for expression of bovine chymosin (see copending U.S. patent application No. 644,998 and U.S. Pat. No. 4,798,791) was used as the starting vector.

The EcoRI fragment from lambda gt10 clone 14-1 was subcloned into the EcoRI site of plasmid pGX2627. Plasmid pGX2627 is derived from pGX1066 (on deposit at the American Type Culture Collection, Rockville, Md., and having accession number ATCC 39955). To derive pGX2627, a 514-base pair RsaI fragment from wild-type phage M13 containing the M13 origin of replication was inserted into the EcoRV site of pGX1066. The DNA sequence of pGX2627 is shown in FIG. 7.) This plasmid contains a multi-restriction site sequence as shown in FIG. 5(a). Ten micrograms of plasmid pGX2627 DNA and 20 micrograms of lambda clone 14-1 DNA were cut with EcoRI (New England Biolabs). This enzyme reaction and all those outlined below were performed according to the manufacturer's recommendations. The pGX2627 DNA was then treated with alkaline phosphatase. After phenol-chloroform extraction and ethanol precipitation using standard procedures in the art, a ligation using T4 DNA ligase in 20 ul with 1 ug of the EcoRI-cut, phosphatase-treated pGX2627 DNA and 12.5 ug EcoRI-treated lambda 14-1 DNA was started at 15° C. After 30 minutes, the reaction mixture was diluted to 50 ul and ligation was continued for nine hours. The ligation mix was used to transform E. coli DH1 (D. Hanahan, J. Mol. Biol. 166:557-580, 1983) using standard procedures (Mandel, M. and Higa, A., J. Mol. Biol., 53:154, 1970). Most of the transformants contained the desired insert. One recombinant plasmid was identified as pGX2368 as shown in FIG. 6.

Plasmid pGX2346 was constructed from pGX2287 by insertion of a synthetic oligonucleotide (FIG. 5b) between the ClaI and SphI sites of pGX2287. Plasmid pGX2287 DNA was cut with ClaI and ligated with synthetic DNA at high molar concentration. The ligated DNAs were then cut with SphI and ligated again at low concentration to form circles. Plasmid pGX2346 was identified by its decreased size and verified by DNA sequencing.

An in-frame gene fusion between the trpB portion of pGX2346, and the bioadhesive precursor protein cDNA of pGX2368 is constructed in the following manner: A BclI endonuclease recognition site was first placed at the translation stop codon of pGX2368 by changing two bases as indicated in FIG. 1 using oligonucleotide-directed mutagenesis (Zoller, M. J. and M. Smith, Methods Enzymol., 100:457-500, 1983) to create plasmid pGX2380. Both plasmids pGX2380 and pGX2346 are grown for DNA preparation in an E. coli host that contains the dam mutation (defective in DNA adenine methylase) so that they could be digested with BclI. The non-methylated pGX2346 DNA is cut with NotI and the pGX2380 DNA is cut with XbaI. Then both DNAs are treated with E. coli DNA polymerase (Klenow fragment) to fill in the 5' single-stranded DNA overhangs. The DNAs are then ligated at high DNA concentration (approximately 2 ug of each DNA in 20 ul) with T4 ligase. The ligation product is cut with BclI then ligated again at low DNA concentration (approximately 1 ug total DNA in 150 ul volume) and used to transform E. coli GX3015. A transformant with the desired construction (see FIG. 6) is designated pGX2383. GX3015 cells with plasmid pGX2383 produce a bioadhesive precursor protein of approximately 24,000 M.W. upon induction of the hybrid lambda promoter by a shift of growth temperature from 32° to 37° C.

EXAMPLE 8 Construction of Expression Vector pGX2381, for Microbial Production of M. edulis Bioadhesive Precursor Protein

The EcoRI insert fragment from lambda gt11 clone 52 (see FIG. 2) was cloned into the EcoRI site of plasmid pGX2627. Plasmid pGX2627 is derived from pGX1066 that has been deposited at the American Type Culture Collection, Rockville, Md., (ATCC 39955) on Dec. 20, 1984. To derive plasmid pGX2627, a 514-base pair RsaI fragment from wild-type phage M13 containing the M13 origin of replication was inserted into the EcoRV site of pGX1066. The DNA sequence of pGX2627 is shown in FIG. 7.

Ten micrograms of plasmid pGX2627 DNA and twenty micrograms of lambda clone 52 DNA were cut with EcoRI. The pGX2627 DNA was then treated with alkaline phosphatase. After phenol-chloroform extraction and ethanol precipitation using standard procedures in the art, one microgram of phosphatase-treated pGX2627 DNA and twelve micrograms of the EcoRI-cut lambda clone 52 DNA were ligated at 15° C. in a twenty microliter volume with T4 polynucleotide ligase. After thirty minutes the ligation mixture was diluted to fifty microliters with ligation buffer and the reaction was continued for nine hours. The ligation mix was used to transform E. coli DH1 (D. Hanahan, J. Mol. Biol. 166:557-580, (1983)) using standard procedures (M. Mandel and A. Higa, J. Mol. Biol. 53:154, (1970)). Most of the transformants contained the desired insert. One recombinant plasmid with the cDNA inserted in the orientation depicted in FIG. 6 was identified as pGX2377.

A BclI endonuclease site was placed at the translation stop codon of the cDNA in pGX2377 by changing the two bases as indicated in FIG. 2 using oligonucleotide-directed mutagenesis (J. M. Zoller and M. Smith, Methods Enzymol. 100:457-500, (1983)) to create pGX2381. The mutagenic oligonucleotide had the DNA sequence ACAGATATTGATCACAATATTA.

EXAMPLE 9 Yeast Expression of Bioadhesive Precursor Protein (Clone 14-1)

YpGX265GAL4 an E. coli host was deposited on Oct. 9, 1986 at the American Type Culture Collection, Rockville, Md., having accession number ATCC 67233.

The YpGX265GAL4 vector contains the following functional units:

Promoter--Hybrid derived from the S. cerevisiae GAL1 and MF-alpha 1 (alpha-factor) promoters. Permits galactose-regulated expression.

Regulatory gene--GAL4- encodes GAL4 protein, a positive regulator of the GALl-MF-alpha 1 hybrid promoter. Derived from S. cerevisiae.

Terminator--derived from synthetic DNA-based on S. cerevisiae GAPDH transcription terminator.

Signal encoding sequence--Derived from synthetic DNA- based on S. cerevisiae PH05 signal. Codons designed substantially for usage preference in S. cerevisiae.

LEU2-d gene--Marker for plasmid selection in S. cerevisiae. Derived from plasmid pJDB207.

2-micron DNA Derived from plasmid pJDB207. Provides plasmid replication origin for S. cerevisiae.

E. coli replication origin--Derived from pJDB207.

E. coli selectable marker--Ampicillin resistance --derived from pJDB207.

Foreign genes are inserted between PH05 signal encoding sequence and the GAPDH terminator.

1. YpGX265GAL4 is digested with restriction endonuclease HindIII and the large and small DNA fragments are gel-purified. The small (3.65 Kb) fragment is saved for a later step.

2. The large HindIII fragment is digested with restriction endonuclease SmaI, generating two DNA fragments.

3. M13mp9 (commercially available) is digested with SmaI and HindIII and then treated with calf alkaline phosphatase.

4. The DNA molecules generated in steps 2 and 3 are ligated and used for transformation of E. coli. The transformants containing phage double-stranded DNA with the yeast promoter-terminator cassette are identified.

5. The recombinant phage double-stranded DNA is digested with restriction endonucleases EcoRV and BamHI and the large fragment (approximately 8kb) is gel-purified.

6. Plasmid pGX2380 (prepared in accordance with Example 7 and containing bioadhesive precursor protein cDNA) is digested with restriction endonuclease XbaI, and the single-stranded overhang is filled with the Klenow fragment of DNA polymerase.

7. The DNA fragment generated in step 5 is digested with BclI. The small DNA fragment (approximately 625bp) is gel-purified.

8. Two oligonucleotides of sequence:

    5' ATCAAATCGATGGCGGCC and 5' GGCCGCCATCGATTTGAT

are annealed and used in a three-way ligation with the DNA fragments generated in steps 5 and 7.

9. E1 coli transformants containing the desired phage DNA molecules are identified by restriction endonuclease digestion.

10. The phage DNA generated in step 9 is digested with restriction endonucleases SmaI and HindIII and the small fragment (approximately 1300bp) is gel-purified.

11. YpGX265GAL4 is digested with SmaI and HindIII and the large fragment is gel-purified.

12. The DNA molecules generated in steps 10 and 11 are ligated and E. coli is transformed. The desired plasmid, YpGX285, is identified by restriction endonuclease digestion.

13. YpGX285 is linearized with restriction endonuclease HindIII and treated with calf alkaline phosphatase.

14. The 3.65 kb GAL4-containing fragment from . step 1 is ligated with the linearized YpGX285 generated in step 13.

15. E. coli is transformed and the desired plasmid, YpGX285GAL4, is identified by restriction endonuclease analysis. Plasmid YpGX285GAL4 was deposited in S. cerevisiae at the American Type Culture Collection, Rockville, Md., on Jan. 29, 1992 and assigned ATCC No. 74123.

16. Saccharmoyces strains carrying mutations in the LEU2 structural gene are transformed with YpGX285GAL4 by standard methods. A suitable strain is AH22 (ATCC #38626).

17. The yeast strain is grown in YNBD medium to maintain the plasmid. The YNBD medium contains 0.7% yeast nitrogen base, 2% glucose, and 20 mg/liter L-histidine.

18. For production of the bioadhesive precursor protein the strain is grown in medium containing 1% yeast extract, 2% peptone, 1% glucose, and 1% galactose at 30° C. with shaking.

19. Production of the bioadhesive precursor protein is analyzed by Western Blot and SDS-polyacrylamide gel electrophoresis of the yeast proteins following procedures known in the art.

EXAMPLE 10 Growth of GX3015 (pGX2383) and Induction of Bioadhesive Precursor Protein Synthesis

Cultures are maintained using growth temperatures of 30° C. with ampicillin at 100 ug/ml and/or medium lacking tryptophan to maintain nutritional selection. Plasmid pGX2383 contains the bla gene which encodes beta-lactamase providing ampicillin resistance, as well as the troED that in tryptophan-deficient medium complements the trpED102 deletion in the GX3015 chromosome.

A single colony of GX3015 (pGX2383) is picked after growth on minimal salts medium (Miller, J. H., "Experiments in Molecular Genetics," Cold Spring Harbor Laboratory, 1972, p. 432) supplemented with 0.4% casamino acids and 0.4% glucose and inoculated into 5 ml of LB medium supplemented with 100 ug/ml ampicillin. After reaching an optical density (A₆₀₀) of greater than 1.0, 0.4 ml of the culture is inoculated into each of two 250-ml baffled flasks containing 50 ml of LB broth supplemented with 100 ug/ml ampicillin. The two flasks are incubated at 30° C. and shaken at 250 r.p.m. for 6.5 to 9 hours.

Fermentation is carried out using 8 liters of the following initial medium:

    ______________________________________                                         (NH.sub.4).sub.2 SO.sub.4                                                                             30       g                                              KH.sub.2 PO.sub.4      15       g                                              K.sub.2 HPO.sub.4      5        g                                              Biotin (0.5 mg/ml in 95% ethanol)                                                                     12       ml                                             tap water to 8 liters, autoclave                                               ______________________________________                                    

The following additions are made after autoclaving to provide the initial medium:

    ______________________________________                                         CaCl.sub.2.2H.sub.2 O                                                                        10 ml of 10% (w/v) sterile solution                              glucose      360 ml of 50% (w/v) sterile solution                              niacin        18 ml of 0.5% (w/v) sterile solution                             Trace solution 1                                                                             90 ml                                                            Trace solution 2                                                                             18 ml                                                            Trace solution 3                                                                             1.8 ml                                                           ______________________________________                                    

The following fermentation conditions are maintained:

    ______________________________________                                         pH 7.0 (controlled by 5N NH.sub.4 OH, and 1N H.sub.3 PO.sub.4)                 Sparge rate           1 vvm                                                    Temperature           32° C.                                            Agitation rate       800 r.p.m.                                                ______________________________________                                    

In order to increase cell density prior to induction of expression, a system of broth supplementation with nutrients is undertaken. The feed solution is prepared as follows:

    ______________________________________                                         1000 g glucose with deionized water for final vol-                             ume of 1700 mls is autoclaved. After autoclav-                                 ing, there is added:                                                           Trace solution 1                                                                               500          ml                                                Trace solution 2                                                                               100          ml                                                Trace solution 3                                                                               10           ml                                                CaCl.sub.2.2H.sub.2 O                                                                          50           ml                                                Trace Solution #1                                                              H.sub.2 O       900          ml                                                conc HCl        13.1         ml                                                FeCl.sub.3.6H.sub.2 O                                                                          5.4          g                                                 ZnSO.sub.4.7H.sub.2 O                                                                          1.44         g                                                 MnCl.sub.2.4H.sub.2 O                                                                          1.0          g                                                 CuSO.sub.4.5H.sub.2 O                                                                          0.25         g                                                 CoCl.sub.2.6H.sub.2 O                                                                          0.24         g                                                 H.sub.3 BO.sub.3                                                                               0.062        g                                                 Brought to 1000 ml and sterile filtered.                                       Trace Solution #2                                                              H.sub.2 O       900          ml                                                HCl             44.8         ml                                                MgSO.sub.4.7H.sub.2 O                                                                          61.6         g                                                 Brought to 1000 ml and sterile filtered.                                       Trace Solution #3                                                              H.sub.2 O       1000         ml                                                Na.sub.2 MoO.sub.4.2H.sub.2 O                                                                  24.1         g                                                 Sterile filtered.                                                              ______________________________________                                    

The feed solution is initially added to the broth in a volume of 180 ml and thereafter as needed to maintain the glucose level at 10 g/liter. Feed supplementation is continued until the A₆₀₀ reaches 20, at which time the cells are induced to express bioadhesive precursor protein from the hybrid lambda promoter. Induction is effected by raising the temperature to 37° C. to deactivate the temperature-sensitive lambda cI857 repressor protein produced by the defective lysogen in the GX3015 chromosome. The fermentation is maintained at 37° C. for another 6-8 hours.

EXAMPLE 11 Purification of Bioadhesive Precursor Protein

E. coli GX3015 (pGX2383) cells (32 g wet weight) are suspended in 20 ml 20 mM Tris-HCl, 2mM EDTA (pH 7.5), 1 mM phenylmethylsufonyl fluoride, 25 mM iodoacetic acid, and thoroughly disrupted by passage through a French press followed by sonication. The cell debris and protein-containing inclusion bodies containing bioadhesive precursor protein are pelleted by centrifugation at 27,500 g for 30 minutes at 4° C. The pellet is extensively washed by suspension in 10 mM Tris-HCl, 1 mM EDTA (pH 7.5) and centrifugation. Washing is continued until the supernatant is clear. The pellet is then dissolved in 15 ml of 6 M guanidine hydrochloride, 5% beta-mercaptoethanol, 25 mM iodoacetic acid, and centrifuged at 30,000 ×g for 30 minutes at 4° C. The supernatant is dialyzed against 4 liters of 0.2 mM EDTA, 10 mM iodoacetic acid, with 3 changes which results in protein precipitation. The precipitate containing about 0.5 g of protein is dissolved in 40 ml of 70% formic acid. Cyanogen bromide (1.3 g). is added and the solution is allowed to react overnight at room temperature. After rotary evaporation, the residue is extracted with 20 ml water (pH 4.0 from residual formic acid). The pH of the water-soluble fraction is adjusted to pH 7.0 with 5N KOH resulting in some precipitate formation. The supernatant is then applied to a CM cellulose or S-Sepharose column (2.5×26 cm) equilibrated with 50 mM potassium phosphate (pH 75). After the column is washed for 14 hours with 50 mM potassium phosphate, the bioadhesive precursor protein is eluted with either a salt gradient (0 to 0.5 M KCl) or a pH change (pH 8 to pH 10) in the buffer. The fractions are assayed by measurement of absorbance at 280 nm and by SDS polyacrylamide gel electrophoresis using both coomassie blue protein stain and the Western blot assay with specific antibodies (Example 1). The fractions containing the bioadhesive precursor protein are pooled and dialyzed overnight twice against 2 liters of deionized water. The resultant suspension is lyophilized and 1 mg of purified material is obtained. Material could be further purified, if necessary, using Sephadex G-75 column chromatography with 03M ammonium acetate pH 4.0. Polyphenolic protein eluting in the first protein peak is dialyzed against water and lyophilized for recovering as a salt-free powder.

The purified protein is hydrolyzed in 6 M constant boiling HCl with phenol crystal in vacuo at 105° C. for 24 hours. The amino acids in the acid hydrolysate are identified as O-phthaldehyde (OPA) derivatives which are separated on C₁₈ reverse-phase HPLC column (Fleury, M. O. and D. V. Ashley, Anal. Biochem. 133:330-335 (1983)). The amino acid composition is used to verify purity since only a subset of amino acids is present in bioadhesive precursor protein.

EXAMPLE 12 Alternate Method for Bioadhesive Precursor Protein Purification

E. coli cells [GX3015 (pGX2383) or yeast cells AH22(YpGX285GAL4) from a 180 l fermentation are centrifuged in a Westphalia centrifuge, washed with saline and resuspended as a 30% solids suspension in 10 mM EDTA, 1.0 mM phenylmethylsulfonyl fluoride (PMSF), 10 mM iodoacetic acid (IAA) at pH 8.0 before breaking by a Manton-Gaulin homogenizer. Bioadhesive precursor protein present in an insoluble fraction is collected with the cell debris upon Westphalia centrifugation. The centrifugation pellet is made a 20% solids suspension in acetic or formic acid at pH 2.2 to 2.5 and mixed for several hours to solubilize bioadhesive precursor protein. The extract is centrifuged or filtered to remove solids and the clear filtrate solution is then adjusted to pH 4 with 5 N KOH in the presence of 10 mM EDTA, 10 mM IAA and 1.0 mM PMSF. Impurities are removed as a precipitate by filtration or centrifugation. The polyphenolic protein in the clear supernatant is then concentrated by ultrafiltration (10,000 M.W. cutoff membrane) and subsequently lyophilized. After the residue (approximately 50-100 g) is dissolved in 1.2 liter of 70% formic acid, cyanogen bromide (100 g) is added and the solution is stirred for 24 hours at room temperature. The reaction mixture is then dried by rotary evaporation and the residue is dissolved in 50-100 ml 6 M guanidine hydrochloride at pH 8.0 and centrifuged at 30,000 g for 20 minutes at 4° C. The supernatant is chromatographed on a Sephacryl S-300 column equilibrated with the same solution. The fractions containing bioadhesive precursor protein are collected, adjusted to pH 4.0 with acetic acid, and dialyzed against water and recovered as a salt-free powder.

EXAMPLE 13 Hydroxylation of Bioadhesive Precursor Protein

Since tyrosinase has been known to catalyze the hydroxylation of tyrosene and oxidation of DOpA (Ito et al., Biochem., 222:407-411 (1984); Marumo and Waite, Biochem. Biophys. Acta, 892:98-103 (1986)), mushroom tyrosinase or Streptomyces antibioticus tyrosinase can be used to enzymatically modify the homogenous E. coli or yeast-produced bioadhesive precursor protein. To a 1 ml mixture containing a 2 mg protein, 25 umole ascorbic acid and 0.05 M sodium phosphate between pH 5 to 7.5, 0.1 mg mushroom tyrosinase (Sigma Chemical Co.) is added. The mixture is allowed to react at room temperature for 3 hours. The kinetics of the hydroxylation process can be monitored by the colorimetric assay for DOPA and DOPA-derived quinone (Waite, J. H. and M. L. Tanzer, Anal. Biochem., 111:131-136 (1981)). The product is further analyzed by amino acid analysis after acid hydrolysis as above (Example 9). After correcting for loss during the recovery process, amino acid analysis indicates approximately 40% of the tyrosine residues are converted to DOPA.

After hydroxylation, the pH of the solution is adjusted to 4 with acetic acid and the solution is dialyzed against 100 volumes of 5% acetic acid. The samples are rotatory-evaporated to reduce the volume. The tyrosinase is removed either by using a LH-Sephadex 60 column, which is eluted with 0.2 M acetic acid, or using a membrane filtration method (Amicon PM30, cut off of 30,000 M.W.).

An alternative purification scheme after hydroxylation is described below. After CNBr cleavage, the supernatant obtained at pH 7.0 (see Example 11) is acidified to between pH 5 and 7 in the presence of ascorbic acid or tropolone (Kahn, V. and A. Andrawis, Phytochemistry, 24:905-908 (1985)). Hydroxylation is started by the addition of tyrosinase. At the end of the reaction, the sample is purified by an SE Sephadex column. The fractions containing DOPA are pooled, dialyzed against 2.5% acetic acid and lyophilized. The purity of the hydroxylated protein is established by acid-urea polyacrylamide gel electrophoresis (Panyium S. and R. Chalkley, Arch. Biochem. Biophs., 130:337-346 (1969)) and amino acid analysis.

The DOPA-containing bioadhesive protein is then ready for formulation as an adhesive.

EXAMPLE 14 Use of Bioadhesive Protein as a Primer for Conventional Adhesives

Surfaces such as metals or plastics are frequently given a pretreatment such as oxidation with acid, flame treatment or plasma bombardment to improve the ability of a surface to "wet" or interact with the adhesive.

Microbially produced and hydroxylated mussel bioadhesive protein coated onto a surface can be used as a pretreatment or priming substance for conventional adhesives. An example of the use of mussel bioadhesive protein as a primer treatment for bonding two pieces of aluminum is given below.

Hydroxylated bioadhesive protein prepared as in Example 13 is dissolved in degassed water (optimally at pH 7.0 to 8.0) at a concentration of 10-400 mg/ml (10-40% w/v). The solution is maintained under nitrogen to prevent premature oxidation of DOPA residues to quinones and curing of the adhesive primer.

The bioadhesive protein solution is sprayed or painted to uniformly moisten an oil-free aluminum surface in a normal air environment. The surface is then dried in a low-humidity environment. A brown or tan color may develop indicating quinone oxidation and chemical cross-linking. The primed surfaces to be bonded are then joined using standard materials such as epoxy glue.

As an alternative to speed bioadhesive protein curing and eliminate the prehydroxylation step (see Example 13), an enzyme such as mushroom tyrosinase (Ito et al., Biochemistry, 222:407-411 (1984)) or Streptomyces tyrosinase (Lerch and Ettlinger, Eur. J. Biochem., 31:427-437 (1972)) is mixed with the non-hydroxylated protein (Example 11) immediately prior to application (for example, in the nozzle of a spray applicator) at a concentration of 0.01 to 1.0 mg/ml solution. The enzyme under these conditions effects oxidation all the way from tyrosine to the reactive quinone species.

Blends of bioadhesive protein with other polymers (as outlined in adhesive examples given below) are also used as primers for other adhesives.

EXAMPLE 15 Use of Bioadhesive Protein

The hydroxylated bioadhesive protein prepared as in Example 13 is dissolved at a concentration of 1-700 mg/ml (0.1-70% solids) in water (or a physiological salt solution for medical applications) adjusted to pH 6.0 with dilute acids.

Immediately prior to application to a surface, a basic solution (approximately 1/50 volume) is added to increase the pH to 8.0. An enzyme such as mussel catechol oxidase (Waite, J. H., J. Mar. Biol. Assoc., 65:359-371 (1985)) can also be added (final concentration 0.01-1 mg/ml) in place of or in addition to base solution immediately prior to application to accelerate the oxidation of DOPA residues to quinones to yield more rapid curing. Mixing of components immediately prior to application can occur, for example, in a spray head of a Duploject^(R) syringe as has been described for fibrin sealant (Redl, H. and G. Schlag, Facial Plastic Surgery, 2:315-321 (1985)). Alternative enzymes such as mushroom tyrosinase (Ito et al., Biochemistry, 222:407-411 (1984)) or Streptomyces tyrosinase (Learch and Ettlinger, Eur. J. Biochem., 31:427-437 (1972)) are also used. With tyrosinase, the bioadhesive protein need not be previously hydroxylated and thus the material without prior hydroxylation described in Example 11 may be used. In order for oxidation of DOPA residues to quinones to take place and subsequent curing (either with or without enzymes), there must be dissolved oxygen present in the bioadhesive protein solution.

EXAMPLE 16 Composites of Bioadhesive Protein with Other Protein Polymers

In order to moderate and improve the properties of the mussel polyphenolic protein adhesive, blends with other polymers are used. The bioadhesive protein is naturally associated with collagen in the byssal threads of the mussels. Collagen is one natural polymer that can be used to increase the cohesive strength of phenolic protein composites. Acid-soluble collagen (Gallop, P. M. and S. Seifter, Methods Enzymol., VI:635-641 (1963)) is dissolved in dilute acid solution at 10-70% (w/v). The collagen is mixed with the bioadhesive protein mixtures as described in Example 15 in ratios having from 1% to 50% of the solids comprising bioadhesive protein with total solids ranging from 10 to 70%. Higher percentages of bioadhesive protein yield more highly cross-linked rigid composites than those with lower percentages of bioadhesive protein. Alkaline solution may be used to neutralize the mixture immediately prior to application. This allows more rapid oxidation and cross-linking (curing) of the mixture. Also, at neutral pH, the collagen will crystallize providing added cohesive strength.

Alternatively, the bioadhesive protein is used in combination with preformed sheets of collagen. This method is analogous to the use of reinforcing steel in cement or graphite fiber in epoxy composites. Collagen sheets such as the commercially available collastat (a Helitrex product distributed by American Home Products Corporation) or other similar products are sprayed or soaked in bioadhesive protein activated as described above in Example 13, then applied to the surface to be bonded.

In a similar manner, other types of insoluble or crystalline protein sheets can be used as reinforcement for adhesive protein. For example, silk cloth, or sheets formed from solubilized and reprecipitated alpha-keratose from wool keratin fibers (J. De Bersagbes, Curr. Probl. Dermatol., 6:34-86 (1976)), or polymerized fibrin clot formed from purified fibrinogen, thrombin and Factor VIII (Redl, H. and G. Schlag, Facial Plastic Surgery, 2:315-321 (1985 )) are used. For medical applications, the use of sheets of fibrin may have the additional benefit of helping to promote wound healing (Redl and Schlag, supra).

EXAMPLE 17 Composites of Bioadhesive Protein with Carbohydrate Polymers

Chitosan is dissolved in 1% acetic acid to a concentration of 30-150 mg/ml (3-15% w/v). The chitosan solution with a final pH of approximately 6.0 is blended with the bioadhesive protein solution described in Example 15. Blends typically have bioadhesive protein concentrations between 2 and 30% and chitosan concentrations between 1 and 7%. At pH 6.0 where the chitosan is still soluble, catechol oxidase and tyrosinase addition catalyzes the formation of reactive DOPA-derived quinones and cross-linking. Increasing the pH to 8.0 as in Example 15 prior to application results in the immediate precipitation of chitosan out of solution which in some cases may not be desirable.

EXAMPLE 18 Isolation of DNA Clone N1 Encoding M. edulis Bioadhesive Precursor Protein

Messenger RNA was isolated from fresh M. edulis as described in Example 6. Two 18-base probes were synthesized based on the DNA sequence in clone 1411. The first synthetic probe (#2214 --GGTTGTTFFTTTATATGC) WAS complementary to a conserved sequence close to the 3'-end of the coding sequence. This oligonucleotide was also used to prime cDNA synthesis. The second probe (#2213-TTTATAAGTTGGCTTTGC) was the complement of the sequence that codes for the hexapeptide found in several locations in the cDNA clones. Probes 2213 and 2214 were used together since they have the same GC/AT ratio and thus approximately the same melting temperature. The use of both probes provided multiple hybridization points and a strong signal during clone bank screening.

The clone bank prepared as in Example 6 was screened with the 18-base oligonucleotides. Thirty hybridization-positive clones were initially identified in duplicate. Twenty-eight of those were plaque purified with two rounds of plating and screening, and their DNA was analyzed. A third synthetic 18-base probe (#2231-GGGATATATTGACTTGGA), which encodes a portion of an uncommon, variant decapeptide, was included in this hybridization analysis.

As expected, many of the clones had larger cDNA inserts than in the cDNA cloning experiments described in Example 4. The largest clones, for example N5, N14 and N26, had a primary insert fragment of approximately 2.6 kb. Clones N1, N14 and N15 were chosen for initial DNA sequence analysis because these DNA preparations were the cleanest. Clone N1 had the largest insert that hybridized to all three probes and it displayed an intense signal with probe #2213, which encodes the predominant hexapeptide sequence.

An initial sequence analysis of two of the largest clones (N15 and N14) showed that both were false positives for polyphenolic protein sequence. The 2.1 kb EcoRI insert from clone N1 was sequenced as described in Example 6, with the following modifications. The N1 clone could be subcloned stably in only one orientation in the M13 sequencing vectors and the progressive sequencing strategy of Dale et al., Plasmid, Vol. 13, p. 31-40, (1985) was performed on only one strand. To confirm that the sequence was assembled correctly, the inserts from the series of overlapping subclones from the Dale procedure were sized by electrophoresis on agarose gels. DNA sequencing confirmed that clone N1 contains polyphenolic protein cDNA. In fact, this clone appears to encode a very large middle portion of the mussel adhesive protein and contains 76 continuous tandem repeats of decapeptides and hexapeptides throughout the 2.1 kb length of the clone (FIG. 9). Gaps in the sequence shown in FIG. 9 allow optimal alignment of the hexapeptides with the decapeptides. Of the 63 decapeptides in the N1 protein, 31 are identical to the decapeptide described in U.S. Pat. No. 4,585,585. The variations in each position are shown in FIG. 10. Of the 13 hexapeptides, 10 are Ala-Lys-Pro-Thr-Tyr-Lys, two have Ser instead of Ala, and one has Val instead of Ala.

Clone N1 does not have a perfect overlap with any of the other cDNA clones sequenced to date. While it is possible that N1 lies just upstream of carboxy-terminal clones 52 or 14-1, it is also possible that the lack of perfect overlap in any of these clones is the result of multiple polyphenolic protein genes or alternate splicing patterns, as found in the studies of other structural proteins. Clone N1 also does not have a characteristic 5'-end sequence and therefore probably does not encode the N-terminus. However, it encodes a polyphenolic protein of nearly 80,000 molecular weight and therefore constitutes the majority of the 110,000-130,000 intact mussel protein.

Except for the proline-rich segment of clone 52, these sequencing results suggest that the tandem decaand hexapeptide repeats may constitute the complete functional part of this protein with respect to adhesive properties. One could easily increase the size of the encoded protein by ligating two or more of the sequenced cDNA segments together.

EXAMPLE 19 Expression of N1 cDNA in Yeast

For expression of .the N1 cDNA in yeast, it was desirable to position NotI and BamHI restriction endonuclease sites at the 5' and 3' ends of the coding sequence respectively. To accomplish this, vector M13mp18 was first mutagenized by oligonucleotide directed mutagenesis to insert a NotI site adjacent to the unique EcoRI site. An oligonucleotide of sequence. ##STR1## was used to prime this mutagenesis.

The new M13 vector was called MGX463 and has unique NotI and BAMHI restriction sites bordering the EcoRI site. MGX463 double-stranded DNA was digested with EcoRI and treated with calf-alkaline phosphatase and the linear DNA was purified on a 0.8% agarose gel.

The N1 cDNA coding sequence was removed from an M13mp10 vector by digesting double-stranded DNA with EcoRI. The approximately 2200 base pair EcoRI fragment was gel purified. This fragment was ligated with the MGX463 double-stranded DNA which was linearized with EcoRI and treated with calf alkaline phosphatase. E. coli strain GX1210 was transformed with the ligation mix. This resulted in vector MGX464 which carries the N1 cDNA sequence bordered by NotI and BamHI restriction sites. MGX464 was digested with NotI and BamHI and the N1 cDNA fragment was gel purified.

YpGX283 (fully described in commonly assigned co-pending U.S. patent application Ser. No. 025,243, filed Mar. 12, 1987, and shown in FIG. 11) was digested with NotI and BamHI and the large vector fragment was gel purified. This fragment was ligated with the NotI/BamHI N1 cDNA fragment and E. coli strain GX1210 was transformed, resulting in plasmid YpGX405. Plasmid YpGX405 (FIG. 12) is a yeast E. coli shuttle vector which contains the N1 cDNA sequence positioned between the PH05 signal coding sequence and the GAPDH transcription terminator. Expression is directed by a hybrid promoter composed of elements of the yeast GALl and MF-alpha 1 promoters. In order to insert the GAL4 gene into YpGX405, that plasmid was linearized with HindIII and treated with calf alkaline phosphatase. Vector YpGX283GAL4 (fully described in co-pending commonly assigned U.S. patent application Ser. No. 025,243, filed Mar. 12, 1987), was digested with HindIII and the GAL4 gene was gel purified. These two fragments were ligated and E. coli strain GX1210 was transformed, resulting in YpGX405GAL4.

To determine if S. cerevisiae produced bioadhesive precursor protein of the expected molecular weight, yeast strain D8 transformed with expression vector YpGX405GAL4 first grown on YNBD solid medium (0.7% yeast nitrogen base, 10% glucose, 2% agar) and then inoculated into 10 ml YPD (1% yeast extract, 2% peptone, 2% glucose) so that the initial A₆₀₀ reading was 0.1 and was then grown at 28° C. with shaking for 17-24 hours. The cells were harvested and washed with 10 ml YPGal (1% yeast extract, 2% peptone, 2% galactose) and resuspended in an equal volume of YPGa1 and induced for 6-28 hours. One ml of that culture was harvested and washed with T₂₅ E₁₂₅ pH 8.4 buffer (25 mM Tris-HCl, 125 mM EDTA, pH 8.4). The cells were then resuspended in 100 ul T₂₅ E₁₂₅ buffer, and broken by vortexing in the presence of glass beads. Following the addition of 200 ul T₂₅ E₁₂₅, the cell lysate was removed from the glass beads and cell debris was pelleted in a microfuge for five minutes. The insoluble pellet was resuspended in 200 ul sample buffer (Laemmli, U. K. 1970, Nature 227:680-685) and boiled for five minutes. A 25 ul aliquot was examined on a 10% SDS-polyacrylamide gel and stained with Coomassie blue. The results of this analysis showed that bioadhesive precursor protein of the appropriate molecular weight was produced by the yeast strain at levels of approximately one percent of the total cell protein.

EXAMPLE 20 Purification of Bioadhesive Precursor Protein

Yeast cells as a 30% suspension in 20 mM Tris pH 7.5, 2 mM EDTA, 0.1 mM PMSF, 10 mM iodoacetic acid were thoroughly disrupted mechanically by a French Press, sonicator or a Manton Gaulin homogenizer. The adhesive precursor protein present in the insoluble fraction was collected with cell debris by centrifugation at 25,000 g for 30' at 4° C. The pellet was extensively washed with 10 mM Tris, 1 mM EDTA (pH 7.8) and centrifuged as before. The pellet was resuspended as a 30% suspension in formic acid (final concentration of 70%) and mixed for several hours. Cyanogen bromide (50 gm/l) was added and the suspension was stirred for 24 hours at room temperature. The reaction mixture was then rotary evaporated to dryness, and the residue was resuspended to the original lysis volume with water (pH 3.0) and stirred for several hours to extract the adhesive protein.

After centrifugation (as before), the adhesive precursor protein was precipitated from the supernatant with 10% NaCl. The precipitate was then dissolved in guanidinium chloride (final concentration 6 M, pH 8.0) with 5% 2-mercaptoethanol and chromatographed on a Sephacryl S-300 or S-400 column, depending on the size of the adhesive precursor protein. The fractions containing the adhesive precursor protein were pooled, adjusted to pH 4.0 with glacial acetic acid, dialyzed against 5% acetic acid, then 0.1% acetic acid, with several changes of the dialysis solution, and lyophilized.

The purified protein was characterized by its mobility on SDS-polyacrylamide gel electrophoresis using both Coumassie blue stain and Western blot analysis, its UV absorption spectrum, protein quantitation and amino acid composition analysis.

EXAMPLE 21

The yeast cells were processed as in Example 20 up to the 10% NaCl precipitation step. Instead of treating with NaCl, the supernatant was adjusted to pH 5.2 and centrifuged. The clear supernatant was dialyzed against 10% formic acid and slowly to water and then to 30 mM phosphate buffer (pH 7.3). After centrifugation, the supernatant was chromatographed on a weak cation exchanger. The column was eluted first with a 0.2-1 M salt gradient at pH 7.3, followed by 1M NaCl in 5% acetic acid. The fractions containing the adhesive precursor protein were pooled, dialyzed and lyophilized as in Example 20, and the identity and purity of the adhesive precursor protein were determined as described in Example 20.

EXAMPLE 22

After the yeast cells were broken and centrifuged as in Example 20, the pellet was solubilized in either 6 M guanidinium chloride or 8 M urea with 5% 2-mercaptoethenol. The insoluble cellular components were removed by centrifuging at 25,000 g for 30' at 4° C. The protein in the supernatant was precipitated by dialysis against water, and the adhesive precursor protein was extracted by a dilute formic acid or acetic acid solution (pH 2.0) for several hours. The adhesive precursor protein was precipitated by either adjusting the pH to neutral, or making the solution 10% NaCl. After centrifugation, the adhesive precursor protein pellet was dissolved in 6M guanidinium chloride and chromatographed on an S-300 or S-400 column depending on the size of the protein. The adhesive precursor protein, with the correct size, was pooled, adjusted to pH 4.0 with acetic acid, dialyzed against 5% acetic acid then 0.1% acetic acid and lyophilized.

EXAMPLE 23

The yeast cells were broken and thoroughly washed as in Example 20. The pellet was extracted for several hours with dilute formic or acetic acid (pH 2.0). The solution was then adjusted to pH 3.0 and centrifuged. The adhesive precursor protein present in the supernatant was precipitated when the pH was adjusted to between 5.0 and 5.5. The adhesive precursor protein was collected by centrifugation, and, if necessary, further purified by either a weak cation exchange, or a gel filtration column as described in Examples 20 and 21. 

What is claimed is:
 1. A vector expression of a bioadhesive precursor protein comprising:(a) a DNA segment encoding the native amino acid sequence of a bioadhesive precursor protein of a mussel; (b) promoter and transcription initiation signals, operably linked to said DNA segment, which are capable of effecting microbial expression of the bioadhesive precursor protein, wherein said promoter is a GAL1-MF-alpha 1 hybrid promoter.
 2. A vector as claimed in claim 1 wherein the encoded bioadhesive precursor protein is from the mussel mytilus.
 3. A vector as claimed in claim 2, wherein the encoded bioadhesive precursor protein is of the mussel species Mytilus edulis.
 4. A vector as claimed in claim 3, which is the plasmid YpGX285GAL4.
 5. The vector as claimed in claim 1, wherein said bioadhesive precursor comprises the amino acid sequence:

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                                                           Ser Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser Tyr                                                                               Pro                                                                               Pro                                                                               Thr Tyr               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Ser Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Pro Ser                                                                               Thr                                                                               Tyr                                                                               Lys Ala               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro                                                                               Thr                                                                               Tyr                                                                               Lys Ala               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys Ala                                                                               Lys                                                                               Pro                                                                               Thr Tyr               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr Pro                                                                               Pro                                                                               Thr                                                                               His                                                                               Lys Ala                                                                               Lys                                                                               Pro                                                                               Thr Tyr               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr Tyr                                                                               Pro                                                                               Ser                                                                               Thr Asp               Gly                                                                               Ala                                                                               Lys                                                                               Ser,                                                                  __________________________________________________________________________

or a fragment of said sequence, said fragment being capable of functioning as a bioadhesive after expression and upon hydroxylation and oxidation.
 6. The vector as claimed in claim 1, wherein said bioadhesive precursor comprises the amino acid sequence;

    __________________________________________________________________________              Lys                                                                               Pro                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Lys                                     Pro                                                                               Lys                                                                               Thr                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Ile                                                                               Ser                                     Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Ala                                                                               Thr                                     Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                     Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                     Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                     Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                     Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ser                                                                               Lys                                     Ser                                                                               Ile                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Ser                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Lys                                                                               Thr                                                                               Tyr                                                                               Pro                                     Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Leu                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                     Pro                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Ile                                                                               Thr                                     Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Leu                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                     Tyr                                                                               Lys                                                                               Ser                                                                               Lys                                                                               Thr                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Asn                                                                               Lys                                                                               Lys                                     Ile                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Ser                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Thr                                                                               Ser                                                                               Tyr                                                                               Pro                                     Pro                                                                               Ala                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Arg                                                                               Tyr                                                    __________________________________________________________________________

or a fragment of said sequence, said fragment being capable of functioning as a bioadhesive after expression and upon hydroxylation and oxidation.
 7. The vector as claimed in claim 1, wherein said bioadhesive precursor comprises the amino acid sequence:

    __________________________________________________________________________              Leu                                                                               Pro                                                                               Pro                                                                               Ala                                                                               Pro                                                                               Pro                                                                               Ala                                                                               Pro                                                                               Ala                                                                               Phe                                                                               Ala                                     Pro                                                                               Ala                                                                               Pro                                                                               Ala                                                                               Leu                                                                               Ala                                                                               Pro                                                                               Ala                                                                               Pro                                                                               Pro                                                                               Asn                                                                               Pro                                                                               Asn                                                                               Pro                                     Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Pro                                                                               Pro                                                                               Pro                                     Thr                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Ala                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Pro                                                                               Ser                                     Pro                                                                               Pro                                                                               Asn                                                                               Pro                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Phe                                     Pro                                                                               Pro                                                                               Ala                                                                               Pro                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Pro                                                                               Pro                                                                               Phe                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                     Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Pro                                                                               Ser                                     Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                     Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                     Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ile                                                                               Lys                                                                               Pro                                     Thr                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Pro                                                                               Ser                                     Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                     Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                     Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ile                                                                               Lys                                                                               Pro                                     Thr                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                     Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                     Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               pro                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                     Lys                                                                               Ser                                                                               Lys                                                                               Ser                                                                               Ile                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Ser                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Lys                                     Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Leu                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                     Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Ser                                                                               Try                                                                               Lys                                                                               Pro                                     Lys                                                                               Ile                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Leu                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                     Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ser                                                                               Lys                                                                               Thr                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                     Asn                                                                               Lys                                                                               Lys                                                                               Ile                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Ser                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Thr                                     Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Ala                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Arg                                                                               Tyr                                           __________________________________________________________________________

or a fragment of said sequence, said fragment being capable of functioning as a bioadhesive after expression and upon hydroxylation and oxidation.
 8. The vector as claimed in claim 1, wherein said bioadhesive precursor comprises the amino acid sequence:

    __________________________________________________________________________     Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                        Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Pro                                                                               Ser                                                                               Thr                                        Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                        Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                        Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                        Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                        Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                        Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Pro                                                                               Ser                                        Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ser                                                                               Lys                                                                               Ser                                                                               Ile                                                                               Tyr                                                                               Pro                                                                               Ser                                        Ser                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Lys                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr,                                          __________________________________________________________________________

or a fragment of said sequence, said fragment being capable of functioning as a bioadhesive after expression and upon hydroxylation and oxidation.
 9. The vector as claimed in claim 1, wherein said bioadhesive precursor comprises the amino acid sequence:

    __________________________________________________________________________     Thr                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                        Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Pro                                                                               Ser                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                        Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Pro                                                                               Lys                                                                               Ile                                                                               Ser                                        Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Ays                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                        Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                                               Pro                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                        Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Thr                                                                               Asn                                                                               Pro                                                                               Ser                                        Thr                                                                               Tyr                                                                               Lys                                                                               Ala                                                                               Lys                                                                               Pro                                                                               Ser                                                                               Tyr                                                       __________________________________________________________________________

or a fragment of said sequence, said fragment being capable of functioning as a bioadhesive after expression and upon hydroxlyation and oxidation.
 10. The vector as claimed in claim 1, wherein said bioadhesive precursor is encoded by the DNA sequence:

      AAG CTG TCA TCT TAC AAA CCT ATT AAG ACA ACA TAT AAT GCA AAG ACA AAT TAT C      CA CCA  GTT TAT AAA CCT AAG ATG ACT TAT CCT CCT ACA TAC AAA CCA AAG CCC      AGT TAT CCT CCA  ACA TAT AAA TCA AAG CCC ACA TAC AAA CCT AAG ATA ACA TAC      CCT CCA ACT TAT AAA GCA  AAG CCC AGT TAT CCT CCA ACA TAT AAA CCT AAG AAA      ACT TAT CCC CCC ACA TAT AAA CCT  AAA CTA ACC TAT CCT CCT ACA TAC AAA CCA      AAG CCC AGT TAT CCT CCA ACA TAT AAA TCA  AAG CCC ACA TAC AAA CCT AAG ATA      ACA TAC CCT CCA ACA TAT AAA GCA AAG CCA AGT TAT  CCT CCT ACA TAT AAA CCT      AAG AAA ACT TAT CCC CCC ACA TAT AAA CCT AAA CTA ACC TAT  CCT CCT ACA TAT      AAA CCA AAG GCC AGT TAT CCT CCA ACA TAT AAA CCA AAA CCA AGT TAT  CCC CCT      TCA TAT AAA ACT AAG AAA ACT TAT CCC CCC ACA TAT AAA CCT AAA CTA ACC TAT      CCT CCT ACA TAT AAA CCA AAA CCA AGT TAT CCC CCT TCA TAC AAA CCT AAG AAA      ACT TAT  CCC CCC ACA TAT AAA CCT AAA CTA ACC TAT CCT CCT ACA TAT AAA GCA      AAG CCA AGT TAT  CCT CCA ACA TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT      AAA GCA AAA CCA AGT TAT  CCT CCA ACA TAT AAA GCA AAA CCA AGT TAT CCT TCA      ACT TAT AAA GCA AAA CCA AGT TAT  CCT CCA ACT TAT AAA GCA AAG CCA ACT TAT      AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA  ACT TAT CCT TCA ACG TAT AAA GCA      AAG CCA ACT TAT CCT CCA ACT TAT AAA GCA AAA CCA  AGT TAT CCT CCA ACT TAT      AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA  AAG CCA AGT TAT      CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA  AAG CCA      AGT TAT CCT CCA ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA       AAA CCA AGT TAT CCT CCA ACT TAT AAA GTA AAG CCA ACA TAT AAA GCA AAA CCA      ACT TAT  CCT TCA ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA      AAA CCA AGT TAT  CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACG TAT      AAA GCA AAA CCA AGT TAT  CCT CCA ACT TAT AAA GCA AAA CCA ACT TAT CCT TCA      ACG TAT AAA GCA AAA CCA AGT TAT  CCT CCA ACT TAT AAA CCT AAA ATA AGT TAT      CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT  CCT TCA ACT TAT AAA GCA AAA TCA      AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT  CCT CCA ACT TAT AAA GCA      AAG CCA ACT TAT CCT TCA ACG TAT AAA GCA AAG CCA ACT TAT  AAA GCA AAG CCA      AGT TAT CCT CCA ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT  AAA GCA      AAA CCC AGT TAT CCT CCA ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA      ACT TAT AAA GCA AAG CCA ACT TAT CCT TCA ACG TAT AAA GCA AAG CCA AGT TAT      CCT CCA  ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA      AGT TAT CCT CCA  ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA      AAG CCA AGT TAT CCT CCA  ACG TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT      AAA GCA AAA CCA AGT TAT CCT CCA  ACT TAT AAA GCA AAG CCA ACT TAT AAA GCA      AAG CCA ACT TAT CCT TCA ACG TAT AAA GCA  AAG CCA AGT TAT CCT CCA ACT TAT      AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA  AAA CCA AGT TAT CCT CCA      ACT TAT AAA GCA AAA CCA ACT TAT AAA GCA AAG CCA ACT TAT  CCT TCA ACG TAT      AAA GCA AAA CCA AGT TAT CCT CCA ACT CAT AAA GCA AAA CCA ACT TAT  AAA GCA      AAG CCA ACT TAT CCT TCA ACT TAT AAA GCA AAA CCA ACT TAT CCT TCA ACG GAT      GGA GCA AAA TCA,

or a fragment of said sequence, said fragment encoding a protein capable of functioning as a bioadhesive after expression and upon hydroxylation and oxidation.
 11. The vector as claimed in claim 1, wherein said bioadhesive precursor is encoded by the DNA sequence:

    __________________________________________________________________________                                                 AAA CCA AAA                        CCA AGT TAT CCA CCA TCT TAT AAA CCT AAA ACA ACT TAT CCT                        CCA ACT TAT AAA CCT AAG ATA AGT TAT CCT CCA ACT TAT AAA                        GCA AAA CCA AGT TAT CCA GCA ACT TAT AAA GCA AAA CCA AGT                        TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT                        TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA AAG                        CCA ACT TAT AAA GCA AAG CCA ACT TAT CCT CCA ACT TAT AAA                        GCA AAA CCA AGT TAT CCT CCA ACA TAT AAA CCA AAG CCA AGT                        TAT CCT CCA ACT TAT AAA TCC AAG TCA ATA TAT CCC TCT TCA                        TAC AAA CCT AAG AAA ACT TAT CCC CCC ACA TAT AAA CCT AAA                        CTA ACC TAT CCT CCA ACA TAT AAA CCA AAG CCA AGT TAT CCA                        CCA TCT TAT AAA CCT AAG ATT ACT TAT CCC TCA ACT TAT AAA                        TTG AAG CCA AGT TAT CCT CCA ACA TAC AAA TCT AAA ACA AGT                        TAC CCT CCT ACA TAT AAC AAA AAG ATC AGC TAT CCA TCA TCA                        TAT AAA GCT AAG ACA AGT TAT CCC CCA GCA TAT AAA CCA ACA                        AAC AGA TAT,                                                                   __________________________________________________________________________

or a fragment of said sequence, said fragment encoding a protein capable of functioning as a bioadhesive after expression and upon hydroxlyation and oxidation.
 12. The vector as claimed in claim 1, wherein said bioadhesive precursor is encoded by the DNA sequence:

    __________________________________________________________________________                                                     CTA CCG                        CCA GCA CCT CCT GCT CCT GCA TTT GCT CCT GCT CCT GCA CTT                        GCA CCG GCT CCT CCA AAT CCT AAT CCT CCA AGT CCT CCG AGT                        CCT CCG AGT CCA CCG ACT CCA CCG CCG ACT CCT CCA AGT CCA                        CCA GCT CCT CCG AGT CCA CCA CCG AGT CCT CCG AAT CCA CCT                        CCG AGT CCA CCT CCG AGT CCA CCG TTT CCT CCG GCT CCA CCT                        CCG AGT CCA CCA TTT CCT CCG ACT TAT AAA GCA AAG CCA ACT                        TAT AAA GCA AAG CCA ACT AAT CCT TCA ACG TAT AAA GCA AAG                        CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT                        CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACG TAT AAA                        GCA AAG CCA ACT TAT AAA ATA AAG CCA ACT TAT CCT TCA ACG                        TAT AAA GCA AAG CCA ACT AAT CCT TCA ACG TAT AAA GCA AAG                        CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT                        CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACG TAT AAA                        GCA AAG CCA ACT TAT AAA ATA AAG CCA ACT TAT CCT TCA ACG                        TAT AAA GCA AAG CCA ACT TAT AAA GCA AAG CCA ACT TAT CCT                        CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACA TAT AAA                        CCA AAG CCA AGT TAT CCT CCA ACT TAT AAA TCC AAG TCA ATA                        TAT CCC TCT TCA TAC AAA CCT AAG AAA ACT TAT CCC CCC ACA                        TAT AAA CCT AAA CTA ACC TAT CCT CCA ACA TAT AAA CCA AAG                        CCA AGT TAT CCA CCA TCT TAT AAA CCT AAG ATT ACT TAT CCC                        TCA ACT TAT AAA TTG AAG CCA AGT TAT CCT CCA ACA TAC AAA                        TCT AAA ACA AGT TAC CCT CCT ACA TAT AAC AAA AAG ATC AGC                        TAT CCA TCA TCA TAT AAA GCT AAG ACA AGT TAT CCC CCA GCA                        TAT AAA CCA ACA AAC AGA TAT,                                                   __________________________________________________________________________

or a fragment of said sequence, said fragment encoding a protein capable of function as a bioadhesive after expression and upon hydroxylation and oxidation.
 13. The vector as claimed in claim 1, wherein said bioadhesive precursor is encoded by the DNA sequence:

    __________________________________________________________________________     TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA                            AAG CCA ACT TAT AAA GCA AAG CCA ACT AAT CCT TCA ACG                            TAT AAA GCA AAG CCA AGT TAT CCT CCA ACT TAT AAA GCA                            AAA CCA AGT TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT                            TAT CCT CCA ACG TAT AAA GCA AAG CCA ACT TAT AAA GCA                            AAG CCA ACT TAT CCT TCA ACG TAT AAA GCA AAG CCA ACT                            TAT AAA GCA AAG CCA ACT TAT CCT CCA ACT TAT AAA GCA                            AAA CCA AGT TAT CCT CCA ACA TAT AAA CCA AAG CCA AGT                            TAT CCT CCA ACT TAT AAA TCC AAG TCA ATA TAT CCC TCT                            TCA TAC AAA CCT AAG AAA ACT TAT CCC CCC ACA TAT,                               __________________________________________________________________________

or a fragment of said sequence, said fragment encoding a protein capable of function as a bioadhesive after expression and upon hydroxylation and oxidation.
 14. The vector as claimed in claim 1, wherein said bioadhesive precursor is encoded by the DNA sequence.

    __________________________________________________________________________     ACT TCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT                            TAT AAA GCA AAG CCA ACT TAC CCT TCA ACG TAT AAA GCA                            AAA CCA AGT TAT CCT CCA ACT TAT AAA CCT AAG ATA AGT                            TAT CCT CCA ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA                            ACT TAT AAA GCA AAA CCA AGT TAT CCT CCA ACT TAT AAA                            GCA AAG CCA ACT TAT AAA GCA AAG CCA ACT AAT CCT TCA                            ACG TAT AAA GCA AAG CCA AGT TAT,                                               __________________________________________________________________________

or a fragment of said sequence, said fragment encoding a protein capable of function as a bioadhesive after expression and upon hydroxylation and oxidation.
 15. A microorganism, capable of expressing a bioadhesive precursor protein, comprising a microorganism which has been transformed with the expression vector of claim 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13,
 14. 16. The transformant microorganism S. cerevisiae AH22(YpGX285GAL4). 